// SPDX-License-Identifier: GPL-2.0+ /* * * This program is distributed in the hope that it will be useful, * but WITHOUT SC WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * Copyright 2008 - 2018 Red Hat, Inc. * */ #define NM_GLIB_COMPAT_H_TEST #include "nm-default.h" #include "nm-std-aux/c-list-util.h" #include "nm-glib-aux/nm-enum-utils.h" #include "nm-utils.h" #include "nm-setting-private.h" #include "nm-utils.h" #include "nm-utils-private.h" #include "nm-core-internal.h" #include "nm-core-tests-enum-types.h" #include "nm-team-utils.h" #include "nm-setting-8021x.h" #include "nm-setting-adsl.h" #include "nm-setting-bluetooth.h" #include "nm-setting-bond.h" #include "nm-setting-bridge.h" #include "nm-setting-bridge-port.h" #include "nm-setting-cdma.h" #include "nm-setting-connection.h" #include "nm-setting-ethtool.h" #include "nm-setting-generic.h" #include "nm-setting-gsm.h" #include "nm-setting-infiniband.h" #include "nm-setting-ip4-config.h" #include "nm-setting-ip6-config.h" #include "nm-setting-olpc-mesh.h" #include "nm-setting-ppp.h" #include "nm-setting-pppoe.h" #include "nm-setting-serial.h" #include "nm-setting-team.h" #include "nm-setting-team-port.h" #include "nm-setting-user.h" #include "nm-setting-vlan.h" #include "nm-setting-vpn.h" #include "nm-setting-wimax.h" #include "nm-setting-wired.h" #include "nm-setting-wireless.h" #include "nm-setting-wireless-security.h" #include "nm-setting-wpan.h" #include "nm-simple-connection.h" #include "nm-keyfile-internal.h" #include "nm-glib-aux/nm-dedup-multi.h" #include "nm-libnm-core-intern/nm-ethtool-utils.h" #include "test-general-enums.h" #include "nm-utils/nm-test-utils.h" /* When passing a "bool" typed argument to a variadic function that * expects a gboolean, the compiler will promote the integer type * to have at least size (int). That way: * g_object_set (obj, PROP_BOOL, bool_val, NULL); * will just work correctly. */ G_STATIC_ASSERT (sizeof (gboolean) == sizeof (int)); G_STATIC_ASSERT (sizeof (bool) <= sizeof (int)); /*****************************************************************************/ static void test_nm_ascii_spaces (void) { int i; const char *const S = NM_ASCII_SPACES; for (i = 0; S[i]; i++) g_assert (!strchr (&S[i + 1], S[i])); for (i = 0; S[i] != '\0'; i++) g_assert (g_ascii_isspace (S[i])); g_assert (!g_ascii_isspace ((char) 0)); for (i = 1; i < 0x100; i++) { if (g_ascii_isspace ((char) i)) g_assert (strchr (S, (char) i)); else g_assert (!strchr (S, (char) i)); } } /*****************************************************************************/ typedef struct _nm_packed { int v0; char v1; double v2; guint8 v3; } TestHashStruct; static void _test_hash_struct (int v0, char v1, double v2, guint8 v3) { const TestHashStruct s = { .v0 = v0, .v1 = v1, .v2 = v2, .v3 = v3, }; NMHashState h; guint hh; nm_hash_init (&h, 100); nm_hash_update (&h, &s, sizeof (s)); hh = nm_hash_complete (&h); nm_hash_init (&h, 100); nm_hash_update_val (&h, v0); nm_hash_update_val (&h, v1); nm_hash_update_val (&h, v2); nm_hash_update_val (&h, v3); g_assert_cmpint (hh, ==, nm_hash_complete (&h)); nm_hash_init (&h, 100); nm_hash_update_vals (&h, v0, v1, v2, v3); g_assert_cmpint (hh, ==, nm_hash_complete (&h)); } static guint _test_hash_str (const char *str) { NMHashState h; guint v, v2; const guint SEED = 10; nm_hash_init (&h, SEED); nm_hash_update_str0 (&h, str); v = nm_hash_complete (&h); /* assert that hashing a string and a buffer yields the * same result. * * I think that is a desirable property. */ nm_hash_init (&h, SEED); nm_hash_update_mem (&h, str, strlen (str)); v2 = nm_hash_complete (&h); g_assert (v == v2); return v; } #define _test_hash_vals(type, ...) \ G_STMT_START { \ NMHashState h0, h1, h2, h3; \ const type v[] = { __VA_ARGS__ }; \ guint h; \ guint i; \ \ nm_hash_init (&h0, 10); \ nm_hash_init (&h1, 10); \ nm_hash_init (&h2, 10); \ nm_hash_init (&h3, 10); \ \ /* assert that it doesn't matter, whether we hash the values individually, * or all at once, or via the convenience macros nm_hash_update_val() * and nm_hash_update_vals(). */ \ for (i = 0; i < G_N_ELEMENTS (v); i++) { \ nm_hash_update (&h0, &v[i], sizeof (type)); \ nm_hash_update_val (&h1, v[i]); \ } \ nm_hash_update_vals (&h2, __VA_ARGS__); \ nm_hash_update (&h3, v, sizeof (v)); \ \ h = nm_hash_complete (&h0); \ g_assert_cmpint (h, ==, nm_hash_complete (&h1)); \ g_assert_cmpint (h, ==, nm_hash_complete (&h2)); \ g_assert_cmpint (h, ==, nm_hash_complete (&h3)); \ } G_STMT_END static void test_nm_hash (void) { g_assert (nm_hash_static (0)); g_assert (nm_hash_static (777)); g_assert (nm_hash_str (NULL)); g_assert (nm_hash_str ("")); g_assert (nm_hash_str ("a")); g_assert (nm_hash_ptr (NULL)); g_assert (nm_hash_ptr ("")); g_assert (nm_hash_ptr ("a")); _test_hash_str (""); _test_hash_str ("a"); _test_hash_str ("aa"); _test_hash_str ("diceros bicornis longipes"); /* assert that nm_hash_update_vals() is the same as calling nm_hash_update_val() multiple times. */ _test_hash_vals (int, 1); _test_hash_vals (int, 1, 2); _test_hash_vals (int, 1, 2, 3); _test_hash_vals (int, 1, 2, 3, 4); _test_hash_vals (long, 1l); _test_hash_vals (long, 1l, 2l, 3l, 4l, 5l); _test_hash_struct (10, 'a', 5.4, 7); _test_hash_struct (-10, '\0', -5.4e49, 255); g_assert_cmpint (NM_HASH_COMBINE_BOOLS (guint8, 1, 0), ==, 0x002); g_assert_cmpint (NM_HASH_COMBINE_BOOLS (guint8, 1, 1), ==, 0x003); g_assert_cmpint (NM_HASH_COMBINE_BOOLS (guint8, 1, 1, 0, 0, 0, 0), ==, 0x030); g_assert_cmpint (NM_HASH_COMBINE_BOOLS (guint8, 1, 1, 0, 0, 0, 1), ==, 0x031); g_assert_cmpint (NM_HASH_COMBINE_BOOLS (guint8, 0, 0, 1, 1, 0, 0, 0, 1), ==, 0x031); g_assert_cmpint (NM_HASH_COMBINE_BOOLS (guint16, 0, 0, 1, 1, 0, 0, 0, 1), ==, 0x031); g_assert_cmpint (NM_HASH_COMBINE_BOOLS (guint16, 0, 0, 0, 1, 1, 0, 0, 0, 1), ==, 0x031); g_assert_cmpint (NM_HASH_COMBINE_BOOLS (guint16, 1, 0, 0, 1, 1, 0, 0, 0, 1), ==, 0x131); } /*****************************************************************************/ static void test_nm_g_slice_free_fcn (void) { gpointer p; struct { char a1; char a2; } xx; p = g_slice_new (gint64); (nm_g_slice_free_fcn (gint64)) (p); p = g_slice_new (gint32); (nm_g_slice_free_fcn (gint32)) (p); p = g_slice_new (int); (nm_g_slice_free_fcn (int)) (p); p = g_slice_new (gint64); nm_g_slice_free_fcn_gint64 (p); p = g_slice_alloc (sizeof (xx)); (nm_g_slice_free_fcn (xx)) (p); } /*****************************************************************************/ static void _do_test_nm_utils_strsplit_set_f_one (NMUtilsStrsplitSetFlags flags, const char *str, gsize words_len, const char *const*exp_words) { #define DELIMITERS " \n" #define DELIMITERS_C ' ', '\n' gs_free const char **words = NULL; gsize i, j, k; const gboolean f_allow_escaping = NM_FLAGS_HAS (flags, NM_UTILS_STRSPLIT_SET_FLAGS_ALLOW_ESCAPING); const gboolean f_preserve_empty = NM_FLAGS_HAS (flags, NM_UTILS_STRSPLIT_SET_FLAGS_PRESERVE_EMPTY); const char *s1; gsize initial_offset; gs_strfreev char **words_g = NULL; g_assert (!NM_FLAGS_ANY (flags, ~( NM_UTILS_STRSPLIT_SET_FLAGS_ALLOW_ESCAPING | NM_UTILS_STRSPLIT_SET_FLAGS_PRESERVE_EMPTY))); /* assert that the epected words are valid (and don't contain unescaped delimiters). */ for (i = 0; i < words_len; i++) { const char *w = exp_words[i]; g_assert (w); if (!f_preserve_empty) g_assert (w[0]); for (k = 0; w[k]; ) { if ( f_allow_escaping && w[k] == '\\') { k++; if (w[k] == '\0') break; k++; continue; } g_assert (!NM_IN_SET (w[k], DELIMITERS_C)); k++; } if (!f_allow_escaping) g_assert (!NM_STRCHAR_ANY (w, ch, NM_IN_SET (ch, DELIMITERS_C))); } initial_offset = (f_preserve_empty || !str) ? 0u : strspn (str, DELIMITERS); /* first compare our expected values with what g_strsplit_set() would * do. */ words_g = str ? g_strsplit_set (str, DELIMITERS, -1) : NULL; if (str == NULL) { g_assert_cmpint (words_len, ==, 0); g_assert (!words_g); } else if (nm_streq0 (str, "")) { g_assert_cmpint (words_len, ==, 0); g_assert (words_g); g_assert (!words_g[0]); } else { g_assert (words_g); g_assert (words_g[0]); if (!f_allow_escaping) { if (!f_preserve_empty) { for (i = 0, j = 0; words_g[i]; i++) { if (words_g[i][0] == '\0') g_free (words_g[i]); else words_g[j++] = words_g[i]; } words_g[j] = NULL; } if (f_preserve_empty) g_assert_cmpint (words_len, >, 0); for (i = 0; i < words_len; i++) { g_assert (exp_words[i]); g_assert_cmpstr (exp_words[i], ==, words_g[i]); } g_assert (words_g[words_len] == NULL); g_assert_cmpint (NM_PTRARRAY_LEN (words_g), ==, words_len); g_assert (_nm_utils_strv_cmp_n (exp_words, words_len, NM_CAST_STRV_CC (words_g), -1) == 0); } } if ( flags == NM_UTILS_STRSPLIT_SET_FLAGS_NONE && nmtst_get_rand_bool ()) words = nm_utils_strsplit_set (str, DELIMITERS); else if ( flags == NM_UTILS_STRSPLIT_SET_FLAGS_PRESERVE_EMPTY && nmtst_get_rand_bool ()) words = nm_utils_strsplit_set_with_empty (str, DELIMITERS); else words = nm_utils_strsplit_set_full (str, DELIMITERS, flags); g_assert_cmpint (NM_PTRARRAY_LEN (words), ==, words_len); if (words_len == 0) { g_assert (!words); g_assert ( !str || NM_STRCHAR_ALL (str, ch, NM_IN_SET (ch, DELIMITERS_C))); return; } g_assert (words); for (i = 0; i < words_len; i++) g_assert_cmpstr (exp_words[i], ==, words[i]); g_assert (words[words_len] == NULL); g_assert (_nm_utils_strv_cmp_n (exp_words, words_len, words, -1) == 0); s1 = words[0]; g_assert (s1 >= (char *) &words[words_len + 1]); s1 = &s1[strlen (str)]; for (i = 1; i < words_len; i++) { g_assert (&(words[i - 1])[strlen (words[i - 1])] < words[i]); g_assert (words[i] <= s1); } /* while strsplit removes all delimiters, we can relatively easily find them * in the original string. Assert that the original string and the pointer offsets * of words correspond. In particular, find idx_delim_after and idx_delim_before * to determine which delimiter was after/before a word. */ { gsize idx_word_start; gsize idx_delim_after_old = G_MAXSIZE; idx_word_start = initial_offset; for (i = 0; i < words_len; i++) { const gsize l_i = strlen (words[i]); gsize idx_delim_after; gsize idx_delim_before; /* find the delimiter *after* words[i]. We can do that by looking at the next * word and calculating the pointer difference. * * The delimiter after the very last word is '\0' and requires strlen() to find. */ idx_delim_after = initial_offset + ((words[i] - words[0]) + l_i); if (idx_delim_after != idx_word_start + l_i) { g_assert (!f_preserve_empty); g_assert_cmpint (idx_word_start + l_i, <, idx_delim_after); idx_word_start = idx_delim_after - l_i; } if (i + 1 < words_len) { gsize x = initial_offset + ((words[i + 1] - words[0]) - 1); if (idx_delim_after != x) { g_assert (!f_preserve_empty); g_assert_cmpint (idx_delim_after, <, x); for (k = idx_delim_after; k <= x; k++) g_assert (NM_IN_SET (str[k], DELIMITERS_C)); } g_assert (NM_IN_SET (str[idx_delim_after], DELIMITERS_C)); } else { if (f_preserve_empty) g_assert (NM_IN_SET (str[idx_delim_after], '\0')); else g_assert (NM_IN_SET (str[idx_delim_after], '\0', DELIMITERS_C)); } /* find the delimiter *before* words[i]. */ if (i == 0) { /* there is only a delimiter *before*, with !f_preserve_empty and leading * delimiters. */ idx_delim_before = G_MAXSIZE; if (initial_offset > 0) { g_assert (!f_preserve_empty); idx_delim_before = initial_offset - 1; } } else idx_delim_before = initial_offset + (words[i] - words[0]) - 1; if (idx_delim_before != G_MAXSIZE) g_assert (NM_IN_SET (str[idx_delim_before], DELIMITERS_C)); if (idx_delim_after_old != idx_delim_before) { g_assert (!f_preserve_empty); if (i == 0) { g_assert_cmpint (initial_offset, >, 0); g_assert_cmpint (idx_delim_before, !=, G_MAXSIZE); g_assert_cmpint (idx_delim_before, ==, initial_offset - 1); } else { g_assert_cmpint (idx_delim_after_old, !=, G_MAXSIZE); g_assert_cmpint (idx_delim_before, !=, G_MAXSIZE); g_assert_cmpint (idx_delim_after_old, <, idx_delim_before); for (k = idx_delim_after_old; k <= idx_delim_before; k++) g_assert (NM_IN_SET (str[k], DELIMITERS_C)); } } for (k = 0; k < l_i; ) { if ( f_allow_escaping && str[idx_word_start + k] == '\\') { k++; if (k >= l_i) break; k++; continue; } g_assert (!NM_IN_SET (str[idx_word_start + k], DELIMITERS_C)); k++; } g_assert (strncmp (words[i], &str[idx_word_start], l_i) == 0); if (i > 0) { const char *s = &(words[i - 1])[strlen (words[i - 1]) + 1]; if (s != words[i]) { g_assert (!f_preserve_empty); g_assert (s < words[i]); } } idx_word_start += l_i + 1; idx_delim_after_old = idx_delim_after; } } } static void _do_test_nm_utils_strsplit_set_f (NMUtilsStrsplitSetFlags flags, const char *str, gsize words_len, const char *const*exp_words) { _do_test_nm_utils_strsplit_set_f_one (flags, str, words_len, exp_words); if (NM_FLAGS_HAS (flags, NM_UTILS_STRSPLIT_SET_FLAGS_PRESERVE_EMPTY)) { gs_unref_ptrarray GPtrArray *exp_words2 = NULL; gsize k; exp_words2 = g_ptr_array_new (); for (k = 0; k < words_len; k++) { if (exp_words[k][0] != '\0') g_ptr_array_add (exp_words2, (gpointer) exp_words[k]); } _do_test_nm_utils_strsplit_set_f_one (flags & (~NM_UTILS_STRSPLIT_SET_FLAGS_PRESERVE_EMPTY), str, exp_words2->len, (const char *const*) exp_words2->pdata); } } #define do_test_nm_utils_strsplit_set_f(flags, str, ...) \ _do_test_nm_utils_strsplit_set_f (flags, \ str, \ NM_NARG (__VA_ARGS__), \ NM_MAKE_STRV (__VA_ARGS__)) #define do_test_nm_utils_strsplit_set(allow_escaping, str, ...) \ do_test_nm_utils_strsplit_set_f ( (allow_escaping) \ ? NM_UTILS_STRSPLIT_SET_FLAGS_ALLOW_ESCAPING \ : NM_UTILS_STRSPLIT_SET_FLAGS_NONE, \ str, \ ##__VA_ARGS__) static void _do_test_nm_utils_strsplit_set_simple (NMUtilsStrsplitSetFlags flags, const char *str, gsize words_len, const char *const*exp_words) { gs_free const char **tokens = NULL; gsize n_tokens; tokens = nm_utils_strsplit_set_full (str, DELIMITERS, flags); if (!tokens) { g_assert_cmpint (words_len, ==, 0); return; } g_assert (str && str[0]); g_assert_cmpint (words_len, >, 0); n_tokens = NM_PTRARRAY_LEN (tokens); if (_nm_utils_strv_cmp_n (exp_words, words_len, tokens, -1) != 0) { gsize i; g_print (">>> split \"%s\" (flags %x) got %zu tokens (%zu expected)\n", str, (guint) flags, n_tokens, words_len); for (i = 0; i < NM_MAX (n_tokens, words_len); i++) { const char *s1 = i < n_tokens ? tokens[i] : NULL; const char *s2 = i < words_len ? exp_words[i] : NULL; g_print (">>> [%zu]: %s - %s%s%s vs. %s%s%s\n", i, nm_streq0 (s1, s2) ? "same" : "diff", NM_PRINT_FMT_QUOTE_STRING (s1), NM_PRINT_FMT_QUOTE_STRING (s2)); } g_assert_not_reached (); } g_assert_cmpint (words_len, ==, NM_PTRARRAY_LEN (tokens)); } #define do_test_nm_utils_strsplit_set_simple(flags, str, ...) \ _do_test_nm_utils_strsplit_set_simple ((flags), (str), NM_NARG (__VA_ARGS__), NM_MAKE_STRV (__VA_ARGS__)) static void test_nm_utils_strsplit_set (void) { gs_unref_ptrarray GPtrArray *words_exp = NULL; guint test_run; do_test_nm_utils_strsplit_set_f (NM_UTILS_STRSPLIT_SET_FLAGS_NONE, NULL); do_test_nm_utils_strsplit_set_f (NM_UTILS_STRSPLIT_SET_FLAGS_NONE, ""); do_test_nm_utils_strsplit_set_f (NM_UTILS_STRSPLIT_SET_FLAGS_NONE, " "); do_test_nm_utils_strsplit_set_f (NM_UTILS_STRSPLIT_SET_FLAGS_NONE, "a b", "a", "b"); do_test_nm_utils_strsplit_set_f (NM_UTILS_STRSPLIT_SET_FLAGS_PRESERVE_EMPTY, NULL); do_test_nm_utils_strsplit_set_f (NM_UTILS_STRSPLIT_SET_FLAGS_PRESERVE_EMPTY, ""); do_test_nm_utils_strsplit_set_f (NM_UTILS_STRSPLIT_SET_FLAGS_PRESERVE_EMPTY, " ", "", ""); do_test_nm_utils_strsplit_set_f (NM_UTILS_STRSPLIT_SET_FLAGS_PRESERVE_EMPTY, " ", "", "", ""); do_test_nm_utils_strsplit_set_f (NM_UTILS_STRSPLIT_SET_FLAGS_PRESERVE_EMPTY, "a ", "a", "", ""); do_test_nm_utils_strsplit_set_f (NM_UTILS_STRSPLIT_SET_FLAGS_PRESERVE_EMPTY, "a b", "a", "", "b"); do_test_nm_utils_strsplit_set_f (NM_UTILS_STRSPLIT_SET_FLAGS_PRESERVE_EMPTY, " ab b", "", "ab", "", "b"); do_test_nm_utils_strsplit_set_f (NM_UTILS_STRSPLIT_SET_FLAGS_PRESERVE_EMPTY, "ab b", "ab", "", "b"); do_test_nm_utils_strsplit_set_f (NM_UTILS_STRSPLIT_SET_FLAGS_PRESERVE_EMPTY, "abb", "abb"); do_test_nm_utils_strsplit_set_f (NM_UTILS_STRSPLIT_SET_FLAGS_PRESERVE_EMPTY, "abb bb ", "abb", "", "bb", ""); do_test_nm_utils_strsplit_set_f (NM_UTILS_STRSPLIT_SET_FLAGS_PRESERVE_EMPTY, "abb bcb ", "abb", "bcb", ""); do_test_nm_utils_strsplit_set (FALSE, NULL); do_test_nm_utils_strsplit_set (FALSE, ""); do_test_nm_utils_strsplit_set (FALSE, "\n"); do_test_nm_utils_strsplit_set (TRUE, " \t\n", "\t"); do_test_nm_utils_strsplit_set (FALSE, "a", "a"); do_test_nm_utils_strsplit_set (FALSE, "a b", "a", "b"); do_test_nm_utils_strsplit_set (FALSE, "a\rb", "a\rb"); do_test_nm_utils_strsplit_set (FALSE, " a\rb ", "a\rb"); do_test_nm_utils_strsplit_set (FALSE, " a bbbd afds ere", "a", "bbbd", "afds", "ere"); do_test_nm_utils_strsplit_set (FALSE, "1 2 3 4 5 6 7 8 9 0 " "1 2 3 4 5 6 7 8 9 0 " "1 2 3 4 5 6 7 8 9 0", "1", "2", "3", "4", "5", "6", "7", "8", "9", "0", "1", "2", "3", "4", "5", "6", "7", "8", "9", "0", "1", "2", "3", "4", "5", "6", "7", "8", "9", "0"); do_test_nm_utils_strsplit_set (TRUE, "\\", "\\"); do_test_nm_utils_strsplit_set (TRUE, "\\ ", "\\ "); do_test_nm_utils_strsplit_set (TRUE, "\\\\", "\\\\"); do_test_nm_utils_strsplit_set (TRUE, "\\\t", "\\\t"); do_test_nm_utils_strsplit_set (TRUE, "foo\\", "foo\\"); do_test_nm_utils_strsplit_set (TRUE, "bar foo\\", "bar", "foo\\"); do_test_nm_utils_strsplit_set (TRUE, "\\ a b\\ \\ c", "\\ a", "b\\ \\ ", "c"); words_exp = g_ptr_array_new_with_free_func (g_free); for (test_run = 0; test_run < 100; test_run++) { gboolean f_allow_escaping = nmtst_get_rand_bool (); guint words_len = nmtst_get_rand_uint32 () % 100; gs_free char *str = NULL; guint i; g_ptr_array_set_size (words_exp, 0); for (i = 0; i < words_len; i++) { guint word_len; char *word; guint j; word_len = nmtst_get_rand_uint32 (); if ((word_len % 100) < 30) word_len = 0; else word_len = (word_len >> 10) % 100; word = g_new (char, word_len + 3); for (j = 0; j < word_len; ) { guint32 p = nmtst_get_rand_uint32 (); static const char delimiters_arr[] = { DELIMITERS_C }; static const char regular_chars[] = "abcdefghijklmnopqrstuvwxyz"; if ( !f_allow_escaping || (p % 1000) < 700) { if (((p >> 20) % 100) < 20) word[j++] = '\\'; word[j++] = regular_chars[(p >> 11) % (G_N_ELEMENTS (regular_chars) - 1)]; continue; } word[j++] = '\\'; word[j++] = delimiters_arr[(p >> 11) % G_N_ELEMENTS (delimiters_arr)]; } word[j] = '\0'; g_ptr_array_add (words_exp, word); } g_ptr_array_add (words_exp, NULL); str = g_strjoinv (" ", (char **) words_exp->pdata); if ( str[0] == '\0' && words_len > 0) { g_assert (words_len == 1); g_assert_cmpstr (words_exp->pdata[0], ==, ""); words_len = 0; } _do_test_nm_utils_strsplit_set_f ( (f_allow_escaping ? NM_UTILS_STRSPLIT_SET_FLAGS_ALLOW_ESCAPING : NM_UTILS_STRSPLIT_SET_FLAGS_NONE) | NM_UTILS_STRSPLIT_SET_FLAGS_PRESERVE_EMPTY, str, words_len, (const char *const*) words_exp->pdata); } do_test_nm_utils_strsplit_set_simple (NM_UTILS_STRSPLIT_SET_FLAGS_ESCAPED, "\t", "\t"); do_test_nm_utils_strsplit_set_simple (NM_UTILS_STRSPLIT_SET_FLAGS_ESCAPED | NM_UTILS_STRSPLIT_SET_FLAGS_STRSTRIP, "\t"); do_test_nm_utils_strsplit_set_simple (NM_UTILS_STRSPLIT_SET_FLAGS_ESCAPED | NM_UTILS_STRSPLIT_SET_FLAGS_STRSTRIP | NM_UTILS_STRSPLIT_SET_FLAGS_PRESERVE_EMPTY, "\t", ""); do_test_nm_utils_strsplit_set_simple (NM_UTILS_STRSPLIT_SET_FLAGS_ESCAPED | NM_UTILS_STRSPLIT_SET_FLAGS_STRSTRIP | NM_UTILS_STRSPLIT_SET_FLAGS_PRESERVE_EMPTY, "\t\\\t\t\t\\\t", "\t\t\t\t"); do_test_nm_utils_strsplit_set_simple (NM_UTILS_STRSPLIT_SET_FLAGS_ESCAPED, "\ta", "\ta"); do_test_nm_utils_strsplit_set_simple (NM_UTILS_STRSPLIT_SET_FLAGS_ESCAPED | NM_UTILS_STRSPLIT_SET_FLAGS_STRSTRIP, "\ta", "a"); do_test_nm_utils_strsplit_set_simple (NM_UTILS_STRSPLIT_SET_FLAGS_ESCAPED, "\ta\\ b\t\\ ", "\ta b\t "); do_test_nm_utils_strsplit_set_simple (NM_UTILS_STRSPLIT_SET_FLAGS_ESCAPED | NM_UTILS_STRSPLIT_SET_FLAGS_STRSTRIP, "\ta\\ b\t\\ \t", "a b\t "); do_test_nm_utils_strsplit_set_simple (NM_UTILS_STRSPLIT_SET_FLAGS_ESCAPED, "a\\ b", "a ", "b"); do_test_nm_utils_strsplit_set_simple (NM_UTILS_STRSPLIT_SET_FLAGS_ESCAPED, "\ta\\ b", "\ta ", "b"); do_test_nm_utils_strsplit_set_simple (NM_UTILS_STRSPLIT_SET_FLAGS_ESCAPED | NM_UTILS_STRSPLIT_SET_FLAGS_STRSTRIP, "\ta\\ b", "a ", "b"); } /*****************************************************************************/ typedef struct { int val; CList lst; } CListSort; static int _c_list_sort_cmp (const CList *lst_a, const CList *lst_b, const void *user_data) { const CListSort *a, *b; g_assert (lst_a); g_assert (lst_b); g_assert (lst_a != lst_b); a = c_list_entry (lst_a, CListSort, lst); b = c_list_entry (lst_b, CListSort, lst); if (a->val < b->val) return -1; if (a->val > b->val) return 1; return 0; } static void _do_test_c_list_sort (CListSort *elements, guint n_list, gboolean headless) { CList head, *iter, *iter_prev, *lst; guint i; const CListSort *el_prev; CListSort *el; c_list_init (&head); for (i = 0; i < n_list; i++) { el = &elements[i]; el->val = nmtst_get_rand_uint32 () % (2*n_list); c_list_link_tail (&head, &el->lst); } if (headless) { lst = head.next; c_list_unlink_stale (&head); lst = c_list_sort_headless (lst, _c_list_sort_cmp, NULL); g_assert (lst); g_assert (lst->next); g_assert (lst->prev); g_assert (c_list_length (lst) == n_list - 1); iter_prev = lst->prev; for (iter = lst; iter != lst; iter = iter->next) { g_assert (iter); g_assert (iter->next); g_assert (iter->prev == iter_prev); } c_list_link_before (lst, &head); } else c_list_sort (&head, _c_list_sort_cmp, NULL); g_assert (!c_list_is_empty (&head)); g_assert (c_list_length (&head) == n_list); el_prev = NULL; c_list_for_each (iter, &head) { el = c_list_entry (iter, CListSort, lst); g_assert (el >= elements && el < &elements[n_list]); if (el_prev) { if (el_prev->val == el->val) g_assert (el_prev < el); else g_assert (el_prev->val < el->val); g_assert (iter->prev == &el_prev->lst); g_assert (el_prev->lst.next == iter); } el_prev = el; } g_assert (head.prev == &el_prev->lst); } static void test_c_list_sort (void) { const guint N_ELEMENTS = 10000; guint n_list, repeat; gs_free CListSort *elements = NULL; { CList head; c_list_init (&head); c_list_sort (&head, _c_list_sort_cmp, NULL); g_assert (c_list_length (&head) == 0); g_assert (c_list_is_empty (&head)); } elements = g_new0 (CListSort, N_ELEMENTS); for (n_list = 1; n_list < N_ELEMENTS; n_list++) { if (n_list > 150) { n_list += nmtst_get_rand_uint32 () % n_list; if (n_list >= N_ELEMENTS) break; } { const guint N_REPEAT = n_list > 50 ? 1 : 5; for (repeat = 0; repeat < N_REPEAT; repeat++) _do_test_c_list_sort (elements, n_list, nmtst_get_rand_uint32 () % 2); } } } /*****************************************************************************/ typedef struct { NMDedupMultiObj parent; guint val; guint other; } DedupObj; static const NMDedupMultiObjClass dedup_obj_class; static DedupObj * _dedup_obj_assert (const NMDedupMultiObj *obj) { DedupObj *o; g_assert (obj); o = (DedupObj *) obj; g_assert (o->parent.klass == &dedup_obj_class); g_assert (o->parent._ref_count > 0); g_assert (o->val > 0); return o; } static const NMDedupMultiObj * _dedup_obj_clone (const NMDedupMultiObj *obj) { DedupObj *o, *o2; o = _dedup_obj_assert (obj); o2 = g_slice_new0 (DedupObj); o2->parent.klass = &dedup_obj_class; o2->parent._ref_count = 1; o2->val = o->val; o2->other = o->other; return (NMDedupMultiObj *) o2; } static void _dedup_obj_destroy (NMDedupMultiObj *obj) { DedupObj *o = (DedupObj *) obj; nm_assert (o->parent._ref_count == 0); o->parent._ref_count = 1; o = _dedup_obj_assert (obj); g_slice_free (DedupObj, o); } static void _dedup_obj_full_hash_update (const NMDedupMultiObj *obj, NMHashState *h) { const DedupObj *o; o = _dedup_obj_assert (obj); nm_hash_update_vals (h, o->val, o->other); } static gboolean _dedup_obj_full_equal (const NMDedupMultiObj *obj_a, const NMDedupMultiObj *obj_b) { const DedupObj *o_a = _dedup_obj_assert (obj_a); const DedupObj *o_b = _dedup_obj_assert (obj_b); return o_a->val == o_b->val && o_a->other == o_b->other; } static const NMDedupMultiObjClass dedup_obj_class = { .obj_clone = _dedup_obj_clone, .obj_destroy = _dedup_obj_destroy, .obj_full_hash_update = _dedup_obj_full_hash_update, .obj_full_equal = _dedup_obj_full_equal, }; #define DEDUP_OBJ_INIT(val_val, other_other) \ (&((DedupObj) { \ .parent = { \ .klass = &dedup_obj_class, \ ._ref_count = NM_OBJ_REF_COUNT_STACKINIT, \ }, \ .val = (val_val), \ .other = (other_other), \ })) typedef struct { NMDedupMultiIdxType parent; guint partition_size; guint val_mod; } DedupIdxType; static const NMDedupMultiIdxTypeClass dedup_idx_type_class; static const DedupIdxType * _dedup_idx_assert (const NMDedupMultiIdxType *idx_type) { DedupIdxType *t; g_assert (idx_type); t = (DedupIdxType *) idx_type; g_assert (t->parent.klass == &dedup_idx_type_class); g_assert (t->partition_size > 0); g_assert (t->val_mod > 0); return t; } static void _dedup_idx_obj_id_hash_update (const NMDedupMultiIdxType *idx_type, const NMDedupMultiObj *obj, NMHashState *h) { const DedupIdxType *t; const DedupObj *o; t = _dedup_idx_assert (idx_type); o = _dedup_obj_assert (obj); nm_hash_update_val (h, o->val / t->partition_size); nm_hash_update_val (h, o->val % t->val_mod); } static gboolean _dedup_idx_obj_id_equal (const NMDedupMultiIdxType *idx_type, const NMDedupMultiObj *obj_a, const NMDedupMultiObj *obj_b) { const DedupIdxType *t; const DedupObj *o_a; const DedupObj *o_b; t = _dedup_idx_assert (idx_type); o_a = _dedup_obj_assert (obj_a); o_b = _dedup_obj_assert (obj_b); return (o_a->val / t->partition_size) == (o_b->val / t->partition_size) && (o_a->val % t->val_mod) == (o_b->val % t->val_mod); } static void _dedup_idx_obj_partition_hash_update (const NMDedupMultiIdxType *idx_type, const NMDedupMultiObj *obj, NMHashState *h) { const DedupIdxType *t; const DedupObj *o; t = _dedup_idx_assert (idx_type); o = _dedup_obj_assert (obj); nm_hash_update_val (h, o->val / t->partition_size); } static gboolean _dedup_idx_obj_partition_equal (const NMDedupMultiIdxType *idx_type, const NMDedupMultiObj *obj_a, const NMDedupMultiObj *obj_b) { const DedupIdxType *t; const DedupObj *o_a; const DedupObj *o_b; t = _dedup_idx_assert (idx_type); o_a = _dedup_obj_assert (obj_a); o_b = _dedup_obj_assert (obj_b); return (o_a->val / t->partition_size) == (o_b->val / t->partition_size); } static const NMDedupMultiIdxTypeClass dedup_idx_type_class = { .idx_obj_id_hash_update = _dedup_idx_obj_id_hash_update, .idx_obj_id_equal = _dedup_idx_obj_id_equal, .idx_obj_partition_hash_update = _dedup_idx_obj_partition_hash_update, .idx_obj_partition_equal = _dedup_idx_obj_partition_equal, }; static const DedupIdxType * DEDUP_IDX_TYPE_INIT (DedupIdxType *idx_type, guint partition_size, guint val_mod) { nm_dedup_multi_idx_type_init ((NMDedupMultiIdxType *) idx_type, &dedup_idx_type_class); idx_type->val_mod = val_mod; idx_type->partition_size = partition_size; return idx_type; } static gboolean _dedup_idx_add (NMDedupMultiIndex *idx, const DedupIdxType *idx_type, const DedupObj *obj, NMDedupMultiIdxMode mode, const NMDedupMultiEntry **out_entry) { g_assert (idx); _dedup_idx_assert ((NMDedupMultiIdxType *) idx_type); if (obj) _dedup_obj_assert ((NMDedupMultiObj *) obj); return nm_dedup_multi_index_add (idx, (NMDedupMultiIdxType *) idx_type, obj, mode, out_entry, NULL); } static void _dedup_head_entry_assert (const NMDedupMultiHeadEntry *entry) { g_assert (entry); g_assert (entry->len > 0); g_assert (entry->len == c_list_length (&entry->lst_entries_head)); g_assert (entry->idx_type); g_assert (entry->is_head); } static const DedupObj * _dedup_entry_assert (const NMDedupMultiEntry *entry) { g_assert (entry); g_assert (!c_list_is_empty (&entry->lst_entries)); g_assert (entry->head); g_assert (!entry->is_head); g_assert (entry->head != (gpointer) entry); _dedup_head_entry_assert (entry->head); return _dedup_obj_assert (entry->obj); } static const DedupIdxType * _dedup_entry_get_idx_type (const NMDedupMultiEntry *entry) { _dedup_entry_assert (entry); g_assert (entry->head); g_assert (entry->head->idx_type); return _dedup_idx_assert (entry->head->idx_type); } static void _dedup_entry_assert_all (const NMDedupMultiEntry *entry, gssize expected_idx, const DedupObj *const*expected_obj) { gsize n, i; CList *iter; g_assert (entry); _dedup_entry_assert (entry); g_assert (expected_obj); n = NM_PTRARRAY_LEN (expected_obj); g_assert (n == c_list_length (&entry->lst_entries)); g_assert (expected_idx >= -1 && expected_idx < n); g_assert (entry->head); if (expected_idx == -1) g_assert (entry->head == (gpointer) entry); else g_assert (entry->head != (gpointer) entry); i = 0; c_list_for_each (iter, &entry->head->lst_entries_head) { const NMDedupMultiEntry *entry_current = c_list_entry (iter, NMDedupMultiEntry, lst_entries); const DedupObj *obj_current; const DedupIdxType *idx_type = _dedup_entry_get_idx_type (entry_current); obj_current = _dedup_entry_assert (entry_current); g_assert (obj_current); g_assert (i < n); if (expected_idx == i) g_assert (entry_current == entry); g_assert (idx_type->parent.klass->idx_obj_partition_equal (&idx_type->parent, entry_current->obj, c_list_entry (entry->head->lst_entries_head.next, NMDedupMultiEntry, lst_entries)->obj)); i++; } } #define _dedup_entry_assert_all(entry, expected_idx, ...) _dedup_entry_assert_all (entry, expected_idx, (const DedupObj *const[]) { __VA_ARGS__, NULL }) static void test_dedup_multi (void) { NMDedupMultiIndex *idx; DedupIdxType IDX_20_3_a_stack; const DedupIdxType *const IDX_20_3_a = DEDUP_IDX_TYPE_INIT (&IDX_20_3_a_stack, 20, 3); const NMDedupMultiEntry *entry1; idx = nm_dedup_multi_index_new (); g_assert (_dedup_idx_add (idx, IDX_20_3_a, DEDUP_OBJ_INIT (1, 1), NM_DEDUP_MULTI_IDX_MODE_APPEND, &entry1)); _dedup_entry_assert_all (entry1, 0, DEDUP_OBJ_INIT (1, 1)); g_assert (nm_dedup_multi_index_obj_find (idx, (NMDedupMultiObj *) DEDUP_OBJ_INIT (1, 1))); g_assert (!nm_dedup_multi_index_obj_find (idx, (NMDedupMultiObj *) DEDUP_OBJ_INIT (1, 2))); g_assert (_dedup_idx_add (idx, IDX_20_3_a, DEDUP_OBJ_INIT (1, 2), NM_DEDUP_MULTI_IDX_MODE_APPEND, &entry1)); _dedup_entry_assert_all (entry1, 0, DEDUP_OBJ_INIT (1, 2)); g_assert (!nm_dedup_multi_index_obj_find (idx, (NMDedupMultiObj *) DEDUP_OBJ_INIT (1, 1))); g_assert (nm_dedup_multi_index_obj_find (idx, (NMDedupMultiObj *) DEDUP_OBJ_INIT (1, 2))); g_assert (_dedup_idx_add (idx, IDX_20_3_a, DEDUP_OBJ_INIT (2, 2), NM_DEDUP_MULTI_IDX_MODE_APPEND, &entry1)); _dedup_entry_assert_all (entry1, 1, DEDUP_OBJ_INIT (1, 2), DEDUP_OBJ_INIT (2, 2)); nm_dedup_multi_index_unref (idx); } /*****************************************************************************/ static NMConnection * _connection_new_from_dbus (GVariant *dict, GError **error) { return _nm_simple_connection_new_from_dbus (dict, NM_SETTING_PARSE_FLAGS_NORMALIZE, error); } static void vpn_check_func (const char *key, const char *value, gpointer user_data) { if (!strcmp (key, "foobar1")) { g_assert_cmpstr (value, ==, "blahblah1"); return; } if (!strcmp (key, "foobar2")) { g_assert_cmpstr (value, ==, "blahblah2"); return; } if (!strcmp (key, "foobar3")) { g_assert_cmpstr (value, ==, "blahblah3"); return; } if (!strcmp (key, "foobar4")) { g_assert_cmpstr (value, ==, "blahblah4"); return; } g_assert_not_reached (); } static void vpn_check_empty_func (const char *key, const char *value, gpointer user_data) { g_assert_not_reached (); } static void test_setting_vpn_items (void) { gs_unref_object NMConnection *connection = NULL; NMSettingVpn *s_vpn; connection = nmtst_create_minimal_connection ("vpn-items", NULL, NM_SETTING_VPN_SETTING_NAME, NULL); s_vpn = nm_connection_get_setting_vpn (connection); nm_setting_vpn_add_data_item (s_vpn, "foobar1", "blahblah1"); nm_setting_vpn_add_data_item (s_vpn, "foobar2", "blahblah2"); nm_setting_vpn_add_data_item (s_vpn, "foobar3", "blahblah3"); nm_setting_vpn_add_data_item (s_vpn, "foobar4", "blahblah4"); /* Ensure that added values are all present */ nm_setting_vpn_foreach_data_item (s_vpn, vpn_check_func, NULL); nm_setting_vpn_remove_data_item (s_vpn, "foobar1"); nm_setting_vpn_remove_data_item (s_vpn, "foobar2"); nm_setting_vpn_remove_data_item (s_vpn, "foobar3"); nm_setting_vpn_remove_data_item (s_vpn, "foobar4"); g_assert (!_nm_connection_aggregate (connection, NM_CONNECTION_AGGREGATE_ANY_SECRETS, NULL)); g_assert (!_nm_connection_aggregate (connection, NM_CONNECTION_AGGREGATE_ANY_SYSTEM_SECRET_FLAGS, NULL)); nm_setting_vpn_add_secret (s_vpn, "foobar1", "blahblah1"); g_assert (_nm_connection_aggregate (connection, NM_CONNECTION_AGGREGATE_ANY_SECRETS, NULL)); g_assert (_nm_connection_aggregate (connection, NM_CONNECTION_AGGREGATE_ANY_SYSTEM_SECRET_FLAGS, NULL)); nm_setting_vpn_add_secret (s_vpn, "foobar2", "blahblah2"); nm_setting_vpn_add_secret (s_vpn, "foobar3", "blahblah3"); nm_setting_vpn_add_secret (s_vpn, "foobar4", "blahblah4"); /* Ensure that added values are all present */ nm_setting_vpn_foreach_secret (s_vpn, vpn_check_func, NULL); nm_setting_vpn_remove_secret (s_vpn, "foobar1"); nm_setting_vpn_remove_secret (s_vpn, "foobar2"); nm_setting_vpn_remove_secret (s_vpn, "foobar3"); g_assert (_nm_connection_aggregate (connection, NM_CONNECTION_AGGREGATE_ANY_SECRETS, NULL)); g_assert (_nm_connection_aggregate (connection, NM_CONNECTION_AGGREGATE_ANY_SYSTEM_SECRET_FLAGS, NULL)); nm_setting_vpn_add_data_item (s_vpn, "foobar4-flags", "blahblah4"); g_assert (_nm_connection_aggregate (connection, NM_CONNECTION_AGGREGATE_ANY_SYSTEM_SECRET_FLAGS, NULL)); nm_setting_vpn_add_data_item (s_vpn, "foobar4-flags", "2"); g_assert (!_nm_connection_aggregate (connection, NM_CONNECTION_AGGREGATE_ANY_SYSTEM_SECRET_FLAGS, NULL)); nm_setting_vpn_remove_secret (s_vpn, "foobar4"); g_assert (!_nm_connection_aggregate (connection, NM_CONNECTION_AGGREGATE_ANY_SECRETS, NULL)); g_assert (!_nm_connection_aggregate (connection, NM_CONNECTION_AGGREGATE_ANY_SYSTEM_SECRET_FLAGS, NULL)); nm_setting_vpn_remove_data_item (s_vpn, "foobar4-flags"); /* Try to add some blank values and make sure they are rejected */ NMTST_EXPECT_LIBNM_CRITICAL (NMTST_G_RETURN_MSG (key && key[0])); nm_setting_vpn_add_data_item (s_vpn, NULL, NULL); g_test_assert_expected_messages (); NMTST_EXPECT_LIBNM_CRITICAL (NMTST_G_RETURN_MSG (key && key[0])); nm_setting_vpn_add_data_item (s_vpn, "", ""); g_test_assert_expected_messages (); NMTST_EXPECT_LIBNM_CRITICAL (NMTST_G_RETURN_MSG (item && item[0])); nm_setting_vpn_add_data_item (s_vpn, "foobar1", NULL); g_test_assert_expected_messages (); NMTST_EXPECT_LIBNM_CRITICAL (NMTST_G_RETURN_MSG (item && item[0])); nm_setting_vpn_add_data_item (s_vpn, "foobar1", ""); g_test_assert_expected_messages (); NMTST_EXPECT_LIBNM_CRITICAL (NMTST_G_RETURN_MSG (key && key[0])); nm_setting_vpn_add_data_item (s_vpn, NULL, "blahblah1"); g_test_assert_expected_messages (); NMTST_EXPECT_LIBNM_CRITICAL (NMTST_G_RETURN_MSG (key && key[0])); nm_setting_vpn_add_data_item (s_vpn, "", "blahblah1"); g_test_assert_expected_messages (); nm_setting_vpn_foreach_data_item (s_vpn, vpn_check_empty_func, NULL); /* Try to add some blank secrets and make sure they are rejected */ NMTST_EXPECT_LIBNM_CRITICAL (NMTST_G_RETURN_MSG (key && key[0])); nm_setting_vpn_add_secret (s_vpn, NULL, NULL); g_test_assert_expected_messages (); NMTST_EXPECT_LIBNM_CRITICAL (NMTST_G_RETURN_MSG (key && key[0])); nm_setting_vpn_add_secret (s_vpn, "", ""); g_test_assert_expected_messages (); NMTST_EXPECT_LIBNM_CRITICAL (NMTST_G_RETURN_MSG (secret && secret[0])); nm_setting_vpn_add_secret (s_vpn, "foobar1", NULL); g_test_assert_expected_messages (); NMTST_EXPECT_LIBNM_CRITICAL (NMTST_G_RETURN_MSG (secret && secret[0])); nm_setting_vpn_add_secret (s_vpn, "foobar1", ""); g_test_assert_expected_messages (); NMTST_EXPECT_LIBNM_CRITICAL (NMTST_G_RETURN_MSG (key && key[0])); nm_setting_vpn_add_secret (s_vpn, NULL, "blahblah1"); g_test_assert_expected_messages (); NMTST_EXPECT_LIBNM_CRITICAL (NMTST_G_RETURN_MSG (key && key[0])); nm_setting_vpn_add_secret (s_vpn, "", "blahblah1"); g_test_assert_expected_messages (); nm_setting_vpn_foreach_secret (s_vpn, vpn_check_empty_func, NULL); } static void test_setting_vpn_update_secrets (void) { NMConnection *connection; NMSettingVpn *s_vpn; GVariantBuilder settings_builder, vpn_builder, secrets_builder; GVariant *settings; gboolean success; GError *error = NULL; const char *tmp; const char *key1 = "foobar"; const char *key2 = "blahblah"; const char *val1 = "value1"; const char *val2 = "value2"; connection = nm_simple_connection_new (); s_vpn = (NMSettingVpn *) nm_setting_vpn_new (); nm_connection_add_setting (connection, NM_SETTING (s_vpn)); g_variant_builder_init (&settings_builder, NM_VARIANT_TYPE_CONNECTION); g_variant_builder_init (&vpn_builder, NM_VARIANT_TYPE_SETTING); g_variant_builder_init (&secrets_builder, G_VARIANT_TYPE ("a{ss}")); g_variant_builder_add (&secrets_builder, "{ss}", key1, val1); g_variant_builder_add (&secrets_builder, "{ss}", key2, val2); g_variant_builder_add (&vpn_builder, "{sv}", NM_SETTING_VPN_SECRETS, g_variant_builder_end (&secrets_builder)); g_variant_builder_add (&settings_builder, "{sa{sv}}", NM_SETTING_VPN_SETTING_NAME, &vpn_builder); settings = g_variant_builder_end (&settings_builder); success = nm_connection_update_secrets (connection, NM_SETTING_VPN_SETTING_NAME, settings, &error); g_assert_no_error (error); g_assert (success); /* Read the secrets back out */ tmp = nm_setting_vpn_get_secret (s_vpn, key1); g_assert (tmp); g_assert_cmpstr (tmp, ==, val1); tmp = nm_setting_vpn_get_secret (s_vpn, key2); g_assert (tmp); g_assert_cmpstr (tmp, ==, val2); g_variant_unref (settings); g_object_unref (connection); } #define TO_DEL_NUM 50 typedef struct { NMSettingVpn *s_vpn; char *to_del[TO_DEL_NUM]; guint called; } IterInfo; static void del_iter_func (const char *key, const char *value, gpointer user_data) { IterInfo *info = user_data; int i; /* Record how many times this function gets called; it should get called * exactly as many times as there are keys in the hash table, regardless * of what keys we delete from the table. */ info->called++; /* During the iteration, remove a bunch of stuff from the table */ if (info->called == 1) { for (i = 0; i < TO_DEL_NUM; i++) nm_setting_vpn_remove_data_item (info->s_vpn, info->to_del[i]); } } static void test_setting_vpn_modify_during_foreach (void) { NMSettingVpn *s_vpn; IterInfo info; char *key, *val; int i, u = 0; s_vpn = (NMSettingVpn *) nm_setting_vpn_new (); g_assert (s_vpn); for (i = 0; i < TO_DEL_NUM * 2; i++) { key = g_strdup_printf ("adsfasdfadf%d", i); val = g_strdup_printf ("42263236236awt%d", i); nm_setting_vpn_add_data_item (s_vpn, key, val); /* Cache some keys to delete */ if (i % 2) info.to_del[u++] = g_strdup (key); g_free (key); g_free (val); } /* Iterate over current table keys */ info.s_vpn = s_vpn; info.called = 0; nm_setting_vpn_foreach_data_item (s_vpn, del_iter_func, &info); /* Make sure all the things we removed during iteration are really gone */ for (i = 0; i < TO_DEL_NUM; i++) { g_assert_cmpstr (nm_setting_vpn_get_data_item (s_vpn, info.to_del[i]), ==, NULL); g_free (info.to_del[i]); } /* And make sure the foreach callback was called the same number of times * as there were keys in the table at the beginning of the foreach. */ g_assert_cmpint (info.called, ==, TO_DEL_NUM * 2); g_object_unref (s_vpn); } static void test_setting_ip4_config_labels (void) { NMSettingIPConfig *s_ip4; NMIPAddress *addr; GVariant *label; GPtrArray *addrs; char **labels; NMConnection *conn; GVariant *dict, *dict2, *setting_dict, *value; GError *error = NULL; s_ip4 = (NMSettingIPConfig *) nm_setting_ip4_config_new (); g_object_set (G_OBJECT (s_ip4), NM_SETTING_IP_CONFIG_METHOD, NM_SETTING_IP4_CONFIG_METHOD_MANUAL, NULL); /* addr 1 */ addr = nm_ip_address_new (AF_INET, "1.2.3.4", 24, &error); g_assert_no_error (error); nm_setting_ip_config_add_address (s_ip4, addr); nm_ip_address_unref (addr); nmtst_assert_setting_verifies (NM_SETTING (s_ip4)); addr = nm_setting_ip_config_get_address (s_ip4, 0); label = nm_ip_address_get_attribute (addr, NM_IP_ADDRESS_ATTRIBUTE_LABEL); g_assert (label == NULL); /* The 'address-labels' property should be omitted from the serialization if * there are no non-NULL labels. */ conn = nmtst_create_minimal_connection ("label test", NULL, NM_SETTING_WIRED_SETTING_NAME, NULL); nm_connection_add_setting (conn, nm_setting_duplicate (NM_SETTING (s_ip4))); dict = nm_connection_to_dbus (conn, NM_CONNECTION_SERIALIZE_ALL); g_object_unref (conn); setting_dict = g_variant_lookup_value (dict, NM_SETTING_IP4_CONFIG_SETTING_NAME, NM_VARIANT_TYPE_SETTING); g_assert (setting_dict != NULL); value = g_variant_lookup_value (setting_dict, "address-labels", NULL); g_assert (value == NULL); g_variant_unref (setting_dict); g_variant_unref (dict); /* Now back to constructing the original s_ip4... */ /* addr 2 */ addr = nm_ip_address_new (AF_INET, "2.3.4.5", 24, &error); g_assert_no_error (error); nm_ip_address_set_attribute (addr, NM_IP_ADDRESS_ATTRIBUTE_LABEL, g_variant_new_string ("eth0:1")); nm_setting_ip_config_add_address (s_ip4, addr); nm_ip_address_unref (addr); nmtst_assert_setting_verifies (NM_SETTING (s_ip4)); addr = nm_setting_ip_config_get_address (s_ip4, 1); label = nm_ip_address_get_attribute (addr, NM_IP_ADDRESS_ATTRIBUTE_LABEL); g_assert (label != NULL); g_assert_cmpstr (g_variant_get_string (label, NULL), ==, "eth0:1"); /* addr 3 */ addr = nm_ip_address_new (AF_INET, "3.4.5.6", 24, &error); g_assert_no_error (error); nm_ip_address_set_attribute (addr, NM_IP_ADDRESS_ATTRIBUTE_LABEL, NULL); nm_setting_ip_config_add_address (s_ip4, addr); nm_ip_address_unref (addr); nmtst_assert_setting_verifies (NM_SETTING (s_ip4)); addr = nm_setting_ip_config_get_address (s_ip4, 2); label = nm_ip_address_get_attribute (addr, NM_IP_ADDRESS_ATTRIBUTE_LABEL); g_assert (label == NULL); /* Remove addr 1 and re-verify remaining addresses */ nm_setting_ip_config_remove_address (s_ip4, 0); nmtst_assert_setting_verifies (NM_SETTING (s_ip4)); addr = nm_setting_ip_config_get_address (s_ip4, 0); g_assert_cmpstr (nm_ip_address_get_address (addr), ==, "2.3.4.5"); label = nm_ip_address_get_attribute (addr, NM_IP_ADDRESS_ATTRIBUTE_LABEL); g_assert (label != NULL); g_assert_cmpstr (g_variant_get_string (label, NULL), ==, "eth0:1"); addr = nm_setting_ip_config_get_address (s_ip4, 1); g_assert_cmpstr (nm_ip_address_get_address (addr), ==, "3.4.5.6"); label = nm_ip_address_get_attribute (addr, NM_IP_ADDRESS_ATTRIBUTE_LABEL); g_assert (label == NULL); /* If we serialize as the daemon, the labels should appear in the D-Bus * serialization under both 'address-labels' and 'address-data'. */ conn = nmtst_create_minimal_connection ("label test", NULL, NM_SETTING_WIRED_SETTING_NAME, NULL); nm_connection_add_setting (conn, NM_SETTING (s_ip4)); _nm_utils_is_manager_process = TRUE; dict = nm_connection_to_dbus (conn, NM_CONNECTION_SERIALIZE_ALL); _nm_utils_is_manager_process = FALSE; g_object_unref (conn); setting_dict = g_variant_lookup_value (dict, NM_SETTING_IP4_CONFIG_SETTING_NAME, NM_VARIANT_TYPE_SETTING); g_assert (setting_dict != NULL); value = g_variant_lookup_value (setting_dict, "address-labels", G_VARIANT_TYPE_STRING_ARRAY); g_assert (value != NULL); g_variant_get (value, "^as", &labels); g_assert_cmpint (g_strv_length (labels), ==, 2); g_assert_cmpstr (labels[0], ==, "eth0:1"); g_assert_cmpstr (labels[1], ==, ""); g_variant_unref (value); g_strfreev (labels); value = g_variant_lookup_value (setting_dict, "address-data", G_VARIANT_TYPE ("aa{sv}")); addrs = nm_utils_ip_addresses_from_variant (value, AF_INET); g_variant_unref (value); g_assert (addrs != NULL); g_assert_cmpint (addrs->len, ==, 2); addr = addrs->pdata[0]; label = nm_ip_address_get_attribute (addr, NM_IP_ADDRESS_ATTRIBUTE_LABEL); g_assert (label != NULL); g_assert_cmpstr (g_variant_get_string (label, NULL), ==, "eth0:1"); addr = addrs->pdata[1]; label = nm_ip_address_get_attribute (addr, NM_IP_ADDRESS_ATTRIBUTE_LABEL); g_assert (label == NULL); g_ptr_array_unref (addrs); g_variant_unref (setting_dict); /* We should be able to deserialize the labels from either 'address-labels' * or 'address-data'. */ dict2 = g_variant_ref (dict); NMTST_VARIANT_EDITOR (dict, NMTST_VARIANT_DROP_PROPERTY (NM_SETTING_IP4_CONFIG_SETTING_NAME, "address-data"); ); conn = _connection_new_from_dbus (dict, &error); g_assert_no_error (error); g_variant_unref (dict); s_ip4 = nm_connection_get_setting_ip4_config (conn); addr = nm_setting_ip_config_get_address (s_ip4, 0); g_assert_cmpstr (nm_ip_address_get_address (addr), ==, "2.3.4.5"); label = nm_ip_address_get_attribute (addr, NM_IP_ADDRESS_ATTRIBUTE_LABEL); g_assert (label != NULL); g_assert_cmpstr (g_variant_get_string (label, NULL), ==, "eth0:1"); addr = nm_setting_ip_config_get_address (s_ip4, 1); g_assert_cmpstr (nm_ip_address_get_address (addr), ==, "3.4.5.6"); label = nm_ip_address_get_attribute (addr, NM_IP_ADDRESS_ATTRIBUTE_LABEL); g_assert (label == NULL); g_object_unref (conn); NMTST_VARIANT_EDITOR (dict2, NMTST_VARIANT_DROP_PROPERTY (NM_SETTING_IP4_CONFIG_SETTING_NAME, "address-labels"); ); conn = _connection_new_from_dbus (dict2, &error); g_assert_no_error (error); g_variant_unref (dict2); s_ip4 = nm_connection_get_setting_ip4_config (conn); addr = nm_setting_ip_config_get_address (s_ip4, 0); g_assert_cmpstr (nm_ip_address_get_address (addr), ==, "2.3.4.5"); label = nm_ip_address_get_attribute (addr, NM_IP_ADDRESS_ATTRIBUTE_LABEL); g_assert_cmpstr (g_variant_get_string (label, NULL), ==, "eth0:1"); addr = nm_setting_ip_config_get_address (s_ip4, 1); g_assert_cmpstr (nm_ip_address_get_address (addr), ==, "3.4.5.6"); label = nm_ip_address_get_attribute (addr, NM_IP_ADDRESS_ATTRIBUTE_LABEL); g_assert (label == NULL); /* Test explicit property assignment */ g_object_get (G_OBJECT (s_ip4), NM_SETTING_IP_CONFIG_ADDRESSES, &addrs, NULL); nm_setting_ip_config_clear_addresses (s_ip4); g_assert_cmpint (nm_setting_ip_config_get_num_addresses (s_ip4), ==, 0); g_object_set (G_OBJECT (s_ip4), NM_SETTING_IP_CONFIG_ADDRESSES, addrs, NULL); g_ptr_array_unref (addrs); nmtst_assert_setting_verifies (NM_SETTING (s_ip4)); g_assert_cmpint (nm_setting_ip_config_get_num_addresses (s_ip4), ==, 2); addr = nm_setting_ip_config_get_address (s_ip4, 0); g_assert_cmpstr (nm_ip_address_get_address (addr), ==, "2.3.4.5"); label = nm_ip_address_get_attribute (addr, NM_IP_ADDRESS_ATTRIBUTE_LABEL); g_assert (label != NULL); g_assert_cmpstr (g_variant_get_string (label, NULL), ==, "eth0:1"); addr = nm_setting_ip_config_get_address (s_ip4, 1); g_assert_cmpstr (nm_ip_address_get_address (addr), ==, "3.4.5.6"); label = nm_ip_address_get_attribute (addr, NM_IP_ADDRESS_ATTRIBUTE_LABEL); g_assert (label == NULL); g_object_unref (conn); } static void test_setting_ip4_config_address_data (void) { NMSettingIPConfig *s_ip4; NMIPAddress *addr; GPtrArray *addrs; NMConnection *conn; GVariant *dict, *setting_dict, *value; GError *error = NULL; s_ip4 = (NMSettingIPConfig *) nm_setting_ip4_config_new (); g_object_set (G_OBJECT (s_ip4), NM_SETTING_IP_CONFIG_METHOD, NM_SETTING_IP4_CONFIG_METHOD_MANUAL, NULL); /* addr 1 */ addr = nm_ip_address_new (AF_INET, "1.2.3.4", 24, &error); g_assert_no_error (error); nm_ip_address_set_attribute (addr, "one", g_variant_new_string ("foo")); nm_ip_address_set_attribute (addr, "two", g_variant_new_int32 (42)); nm_setting_ip_config_add_address (s_ip4, addr); nm_ip_address_unref (addr); nmtst_assert_setting_verifies (NM_SETTING (s_ip4)); /* addr 2 */ addr = nm_ip_address_new (AF_INET, "2.3.4.5", 24, &error); g_assert_no_error (error); nm_setting_ip_config_add_address (s_ip4, addr); nm_ip_address_unref (addr); nmtst_assert_setting_verifies (NM_SETTING (s_ip4)); /* The client-side D-Bus serialization should include the attributes in * "address-data", and should not have an "addresses" property. */ conn = nmtst_create_minimal_connection ("address-data test", NULL, NM_SETTING_WIRED_SETTING_NAME, NULL); nm_connection_add_setting (conn, NM_SETTING (s_ip4)); dict = nm_connection_to_dbus (conn, NM_CONNECTION_SERIALIZE_ALL); setting_dict = g_variant_lookup_value (dict, NM_SETTING_IP4_CONFIG_SETTING_NAME, NM_VARIANT_TYPE_SETTING); g_assert (setting_dict != NULL); value = g_variant_lookup_value (setting_dict, "addresses", NULL); g_assert (value == NULL); value = g_variant_lookup_value (setting_dict, "address-data", G_VARIANT_TYPE ("aa{sv}")); addrs = nm_utils_ip_addresses_from_variant (value, AF_INET); g_variant_unref (value); g_assert (addrs != NULL); g_assert_cmpint (addrs->len, ==, 2); addr = addrs->pdata[0]; g_assert_cmpstr (nm_ip_address_get_address (addr), ==, "1.2.3.4"); value = nm_ip_address_get_attribute (addr, "one"); g_assert (value != NULL); g_assert_cmpstr (g_variant_get_string (value, NULL), ==, "foo"); value = nm_ip_address_get_attribute (addr, "two"); g_assert (value != NULL); g_assert_cmpint (g_variant_get_int32 (value), ==, 42); g_ptr_array_unref (addrs); g_variant_unref (setting_dict); g_variant_unref (dict); /* The daemon-side serialization should include both 'addresses' and 'address-data' */ _nm_utils_is_manager_process = TRUE; dict = nm_connection_to_dbus (conn, NM_CONNECTION_SERIALIZE_ALL); _nm_utils_is_manager_process = FALSE; setting_dict = g_variant_lookup_value (dict, NM_SETTING_IP4_CONFIG_SETTING_NAME, NM_VARIANT_TYPE_SETTING); g_assert (setting_dict != NULL); value = g_variant_lookup_value (setting_dict, "addresses", G_VARIANT_TYPE ("aau")); g_assert (value != NULL); g_variant_unref (value); value = g_variant_lookup_value (setting_dict, "address-data", G_VARIANT_TYPE ("aa{sv}")); g_assert (value != NULL); g_variant_unref (value); g_variant_unref (setting_dict); g_object_unref (conn); /* When we reserialize that dictionary as a client, 'address-data' will be preferred. */ conn = _connection_new_from_dbus (dict, &error); g_assert_no_error (error); s_ip4 = nm_connection_get_setting_ip4_config (conn); addr = nm_setting_ip_config_get_address (s_ip4, 0); g_assert_cmpstr (nm_ip_address_get_address (addr), ==, "1.2.3.4"); value = nm_ip_address_get_attribute (addr, "one"); g_assert (value != NULL); g_assert_cmpstr (g_variant_get_string (value, NULL), ==, "foo"); value = nm_ip_address_get_attribute (addr, "two"); g_assert (value != NULL); g_assert_cmpint (g_variant_get_int32 (value), ==, 42); /* But on the server side, 'addresses' will have precedence. */ _nm_utils_is_manager_process = TRUE; conn = _connection_new_from_dbus (dict, &error); _nm_utils_is_manager_process = FALSE; g_assert_no_error (error); g_variant_unref (dict); s_ip4 = nm_connection_get_setting_ip4_config (conn); addr = nm_setting_ip_config_get_address (s_ip4, 0); g_assert_cmpstr (nm_ip_address_get_address (addr), ==, "1.2.3.4"); value = nm_ip_address_get_attribute (addr, "one"); g_assert (value == NULL); value = nm_ip_address_get_attribute (addr, "two"); g_assert (value == NULL); g_object_unref (conn); } static void test_setting_ip_route_attributes (void) { GVariant *variant; gboolean res, known; #define TEST_ATTR(name, type, value, family, exp_res, exp_known) \ variant = g_variant_new_ ## type (value); \ res = nm_ip_route_attribute_validate (name, variant, family, &known, NULL); \ g_assert (res == exp_res); \ g_assert (known == exp_known); \ g_variant_unref (variant); TEST_ATTR ("foo", uint32, 12, AF_INET, FALSE, FALSE); TEST_ATTR ("tos", byte, 127, AF_INET, TRUE, TRUE); TEST_ATTR ("tos", string, "0x28", AF_INET, FALSE, TRUE); TEST_ATTR ("cwnd", uint32, 10, AF_INET, TRUE, TRUE); TEST_ATTR ("cwnd", string, "11", AF_INET, FALSE, TRUE); TEST_ATTR ("lock-mtu", boolean, TRUE, AF_INET, TRUE, TRUE); TEST_ATTR ("lock-mtu", uint32, 1, AF_INET, FALSE, TRUE); TEST_ATTR ("from", string, "fd01::1", AF_INET6, TRUE, TRUE); TEST_ATTR ("from", string, "fd01::1/64", AF_INET6, TRUE, TRUE); TEST_ATTR ("from", string, "fd01::1/128", AF_INET6, TRUE, TRUE); TEST_ATTR ("from", string, "fd01::1/129", AF_INET6, FALSE, TRUE); TEST_ATTR ("from", string, "fd01::1/a", AF_INET6, FALSE, TRUE); TEST_ATTR ("from", string, "abc/64", AF_INET6, FALSE, TRUE); TEST_ATTR ("from", string, "1.2.3.4", AF_INET, FALSE, TRUE); TEST_ATTR ("from", string, "1.2.3.4", AF_INET6, FALSE, TRUE); TEST_ATTR ("src", string, "1.2.3.4", AF_INET, TRUE, TRUE); TEST_ATTR ("src", string, "1.2.3.4", AF_INET6, FALSE, TRUE); TEST_ATTR ("src", string, "1.2.3.0/24", AF_INET, FALSE, TRUE); TEST_ATTR ("src", string, "fd01::12", AF_INET6, TRUE, TRUE); #undef TEST_ATTR } static void test_setting_gsm_apn_spaces (void) { gs_unref_object NMSettingGsm *s_gsm = NULL; const char *tmp; s_gsm = (NMSettingGsm *) nm_setting_gsm_new (); g_assert (s_gsm); /* Trailing space */ g_object_set (s_gsm, NM_SETTING_GSM_APN, "foobar ", NULL); tmp = nm_setting_gsm_get_apn (s_gsm); g_assert_cmpstr (tmp, ==, "foobar"); /* Leading space */ g_object_set (s_gsm, NM_SETTING_GSM_APN, " foobar", NULL); tmp = nm_setting_gsm_get_apn (s_gsm); g_assert_cmpstr (tmp, ==, "foobar"); } static void test_setting_gsm_apn_bad_chars (void) { gs_unref_object NMSettingGsm *s_gsm = NULL; s_gsm = (NMSettingGsm *) nm_setting_gsm_new (); g_assert (s_gsm); /* Make sure a valid APN works */ g_object_set (s_gsm, NM_SETTING_GSM_APN, "foobar123.-baz", NULL); g_assert (nm_setting_verify (NM_SETTING (s_gsm), NULL, NULL)); /* Random invalid chars */ g_object_set (s_gsm, NM_SETTING_GSM_APN, "@#%$@#%@#%", NULL); g_assert (!nm_setting_verify (NM_SETTING (s_gsm), NULL, NULL)); /* Spaces */ g_object_set (s_gsm, NM_SETTING_GSM_APN, "foobar baz", NULL); g_assert (!nm_setting_verify (NM_SETTING (s_gsm), NULL, NULL)); /* 0 characters long */ g_object_set (s_gsm, NM_SETTING_GSM_APN, "", NULL); g_assert (nm_setting_verify (NM_SETTING (s_gsm), NULL, NULL)); /* 65-character long */ g_object_set (s_gsm, NM_SETTING_GSM_APN, "abcdefghijklmnopqrstuvwxyzabcdefghijklmnopqrstuvwxyzabcdefghijkl1", NULL); g_assert (!nm_setting_verify (NM_SETTING (s_gsm), NULL, NULL)); } static void test_setting_gsm_apn_underscore (void) { gs_unref_object NMSettingGsm *s_gsm = NULL; s_gsm = (NMSettingGsm *) nm_setting_gsm_new (); g_assert (s_gsm); /* 65-character long */ g_object_set (s_gsm, NM_SETTING_GSM_APN, "foobar_baz", NULL); nmtst_assert_setting_verifies (NM_SETTING (s_gsm)); } static void test_setting_gsm_without_number (void) { gs_unref_object NMSettingGsm *s_gsm = NULL; s_gsm = (NMSettingGsm *) nm_setting_gsm_new (); g_assert (s_gsm); g_object_set (s_gsm, NM_SETTING_GSM_NUMBER, NULL, NULL); nmtst_assert_setting_verifies (NM_SETTING (s_gsm)); g_object_set (s_gsm, NM_SETTING_GSM_NUMBER, "", NULL); nmtst_assert_setting_verify_fails (NM_SETTING (s_gsm), NM_CONNECTION_ERROR, NM_CONNECTION_ERROR_INVALID_PROPERTY); } static void test_setting_gsm_sim_operator_id (void) { gs_unref_object NMSettingGsm *s_gsm = NULL; s_gsm = (NMSettingGsm *) nm_setting_gsm_new (); g_assert (s_gsm); /* Valid */ g_object_set (s_gsm, NM_SETTING_GSM_SIM_OPERATOR_ID, "12345", NULL); nmtst_assert_setting_verifies (NM_SETTING (s_gsm)); g_object_set (s_gsm, NM_SETTING_GSM_SIM_OPERATOR_ID, "123456", NULL); nmtst_assert_setting_verifies (NM_SETTING (s_gsm)); /* Invalid */ g_object_set (s_gsm, NM_SETTING_GSM_SIM_OPERATOR_ID, "", NULL); nmtst_assert_setting_verify_fails (NM_SETTING (s_gsm), NM_CONNECTION_ERROR, NM_CONNECTION_ERROR_INVALID_PROPERTY); g_object_set (s_gsm, NM_SETTING_GSM_SIM_OPERATOR_ID, " ", NULL); nmtst_assert_setting_verify_fails (NM_SETTING (s_gsm), NM_CONNECTION_ERROR, NM_CONNECTION_ERROR_INVALID_PROPERTY); g_object_set (s_gsm, NM_SETTING_GSM_SIM_OPERATOR_ID, "abcdef", NULL); nmtst_assert_setting_verify_fails (NM_SETTING (s_gsm), NM_CONNECTION_ERROR, NM_CONNECTION_ERROR_INVALID_PROPERTY); } static NMSettingWirelessSecurity * make_test_wsec_setting (const char *detail) { NMSettingWirelessSecurity *s_wsec; s_wsec = (NMSettingWirelessSecurity *) nm_setting_wireless_security_new (); g_assert (s_wsec); g_object_set (s_wsec, NM_SETTING_WIRELESS_SECURITY_KEY_MGMT, "wpa-psk", NM_SETTING_WIRELESS_SECURITY_LEAP_USERNAME, "foobarbaz", NM_SETTING_WIRELESS_SECURITY_PSK, "random psk", NM_SETTING_WIRELESS_SECURITY_PSK_FLAGS, NM_SETTING_SECRET_FLAG_NOT_SAVED, NM_SETTING_WIRELESS_SECURITY_WEP_KEY0, "aaaaaaaaaa", NULL); return s_wsec; } static gboolean _variant_contains (GVariant *vardict, const char *key) { gs_unref_variant GVariant *value = NULL; value = g_variant_lookup_value (vardict, key, NULL); return !!value; } static void test_setting_to_dbus_all (void) { NMSettingWirelessSecurity *s_wsec; GVariant *dict; s_wsec = make_test_wsec_setting ("setting-to-dbus-all"); dict = _nm_setting_to_dbus (NM_SETTING (s_wsec), NULL, NM_CONNECTION_SERIALIZE_ALL, NULL); /* Make sure all keys are there */ g_assert (_variant_contains (dict, NM_SETTING_WIRELESS_SECURITY_KEY_MGMT)); g_assert (_variant_contains (dict, NM_SETTING_WIRELESS_SECURITY_LEAP_USERNAME)); g_assert (_variant_contains (dict, NM_SETTING_WIRELESS_SECURITY_PSK)); g_assert (_variant_contains (dict, NM_SETTING_WIRELESS_SECURITY_WEP_KEY0)); g_variant_unref (dict); g_object_unref (s_wsec); } static void test_setting_to_dbus_no_secrets (void) { NMSettingWirelessSecurity *s_wsec; GVariant *dict; s_wsec = make_test_wsec_setting ("setting-to-dbus-no-secrets"); dict = _nm_setting_to_dbus (NM_SETTING (s_wsec), NULL, NM_CONNECTION_SERIALIZE_NO_SECRETS, NULL); /* Make sure non-secret keys are there */ g_assert (_variant_contains (dict, NM_SETTING_WIRELESS_SECURITY_KEY_MGMT)); g_assert (_variant_contains (dict, NM_SETTING_WIRELESS_SECURITY_LEAP_USERNAME)); /* Make sure secrets are not there */ g_assert (!_variant_contains (dict, NM_SETTING_WIRELESS_SECURITY_PSK)); g_assert (!_variant_contains (dict, NM_SETTING_WIRELESS_SECURITY_WEP_KEY0)); g_variant_unref (dict); g_object_unref (s_wsec); } static void test_setting_to_dbus_only_secrets (void) { NMSettingWirelessSecurity *s_wsec; GVariant *dict; s_wsec = make_test_wsec_setting ("setting-to-dbus-only-secrets"); dict = _nm_setting_to_dbus (NM_SETTING (s_wsec), NULL, NM_CONNECTION_SERIALIZE_ONLY_SECRETS, NULL); /* Make sure non-secret keys are not there */ g_assert (!_variant_contains (dict, NM_SETTING_WIRELESS_SECURITY_KEY_MGMT)); g_assert (!_variant_contains (dict, NM_SETTING_WIRELESS_SECURITY_LEAP_USERNAME)); /* Make sure secrets are there */ g_assert (_variant_contains (dict, NM_SETTING_WIRELESS_SECURITY_PSK)); g_assert (_variant_contains (dict, NM_SETTING_WIRELESS_SECURITY_WEP_KEY0)); g_variant_unref (dict); g_object_unref (s_wsec); } static void test_setting_to_dbus_transform (void) { NMSetting *s_wired; GVariant *dict, *val; const char *test_mac_address = "11:22:33:44:55:66"; const guint8 *dbus_mac_address; guint8 cmp_mac_address[ETH_ALEN]; gsize len; s_wired = nm_setting_wired_new (); g_object_set (s_wired, NM_SETTING_WIRED_MAC_ADDRESS, test_mac_address, NULL); g_assert_cmpstr (nm_setting_wired_get_mac_address (NM_SETTING_WIRED (s_wired)), ==, test_mac_address); dict = _nm_setting_to_dbus (s_wired, NULL, NM_CONNECTION_SERIALIZE_ALL, NULL); g_assert (dict != NULL); val = g_variant_lookup_value (dict, NM_SETTING_WIRED_MAC_ADDRESS, G_VARIANT_TYPE_BYTESTRING); g_assert (val != NULL); dbus_mac_address = g_variant_get_fixed_array (val, &len, 1); g_assert_cmpint (len, ==, ETH_ALEN); nm_utils_hwaddr_aton (test_mac_address, cmp_mac_address, ETH_ALEN); g_assert (memcmp (dbus_mac_address, cmp_mac_address, ETH_ALEN) == 0); g_variant_unref (val); g_variant_unref (dict); g_object_unref (s_wired); } static void test_setting_to_dbus_enum (void) { NMSetting *s_ip6, *s_wsec, *s_serial; GVariant *dict, *val; /* enum */ s_ip6 = nm_setting_ip6_config_new (); g_object_set (s_ip6, NM_SETTING_IP6_CONFIG_IP6_PRIVACY, NM_SETTING_IP6_CONFIG_PRIVACY_PREFER_TEMP_ADDR, NULL); dict = _nm_setting_to_dbus (s_ip6, NULL, NM_CONNECTION_SERIALIZE_ALL, NULL); g_assert (dict != NULL); val = g_variant_lookup_value (dict, NM_SETTING_IP6_CONFIG_IP6_PRIVACY, G_VARIANT_TYPE_INT32); g_assert (val != NULL); g_assert_cmpint (g_variant_get_int32 (val), ==, NM_SETTING_IP6_CONFIG_PRIVACY_PREFER_TEMP_ADDR); g_variant_unref (val); g_variant_unref (dict); g_object_unref (s_ip6); /* flags (and a transformed enum) */ s_wsec = nm_setting_wireless_security_new (); g_object_set (s_wsec, NM_SETTING_WIRELESS_SECURITY_WEP_KEY_TYPE, NM_WEP_KEY_TYPE_KEY, NM_SETTING_WIRELESS_SECURITY_WEP_KEY_FLAGS, (NM_SETTING_SECRET_FLAG_AGENT_OWNED | NM_SETTING_SECRET_FLAG_NOT_SAVED), NULL); dict = _nm_setting_to_dbus (s_wsec, NULL, NM_CONNECTION_SERIALIZE_ALL, NULL); g_assert (dict != NULL); val = g_variant_lookup_value (dict, NM_SETTING_WIRELESS_SECURITY_WEP_KEY_TYPE, G_VARIANT_TYPE_UINT32); g_assert (val != NULL); g_assert_cmpint (g_variant_get_uint32 (val), ==, NM_WEP_KEY_TYPE_KEY); g_variant_unref (val); val = g_variant_lookup_value (dict, NM_SETTING_WIRELESS_SECURITY_WEP_KEY_FLAGS, G_VARIANT_TYPE_UINT32); g_assert (val != NULL); g_assert_cmpint (g_variant_get_uint32 (val), ==, (NM_SETTING_SECRET_FLAG_AGENT_OWNED | NM_SETTING_SECRET_FLAG_NOT_SAVED)); g_variant_unref (val); g_variant_unref (dict); g_object_unref (s_wsec); /* another transformed enum */ s_serial = nm_setting_serial_new (); g_object_set (s_serial, NM_SETTING_SERIAL_PARITY, NM_SETTING_SERIAL_PARITY_ODD, NULL); dict = _nm_setting_to_dbus (s_serial, NULL, NM_CONNECTION_SERIALIZE_ALL, NULL); g_assert (dict != NULL); val = g_variant_lookup_value (dict, NM_SETTING_SERIAL_PARITY, G_VARIANT_TYPE_BYTE); g_assert (val != NULL); g_assert_cmpint (g_variant_get_byte (val), ==, 'o'); g_variant_unref (val); g_variant_unref (dict); g_object_unref (s_serial); } static void test_connection_to_dbus_setting_name (void) { NMConnection *connection; NMSettingWirelessSecurity *s_wsec; GVariant *dict; connection = nm_simple_connection_new (); s_wsec = make_test_wsec_setting ("connection-to-dbus-setting-name"); nm_connection_add_setting (connection, NM_SETTING (s_wsec)); g_assert (_nm_connection_aggregate (connection, NM_CONNECTION_AGGREGATE_ANY_SECRETS, NULL)); g_assert (_nm_connection_aggregate (connection, NM_CONNECTION_AGGREGATE_ANY_SYSTEM_SECRET_FLAGS, NULL)); g_object_set (s_wsec, NM_SETTING_WIRELESS_SECURITY_WEP_KEY_FLAGS, NM_SETTING_SECRET_FLAG_NOT_SAVED, NM_SETTING_WIRELESS_SECURITY_LEAP_PASSWORD_FLAGS, NM_SETTING_SECRET_FLAG_NOT_SAVED, NULL); g_assert (_nm_connection_aggregate (connection, NM_CONNECTION_AGGREGATE_ANY_SECRETS, NULL)); g_assert (!_nm_connection_aggregate (connection, NM_CONNECTION_AGGREGATE_ANY_SYSTEM_SECRET_FLAGS, NULL)); g_object_set (s_wsec, NM_SETTING_WIRELESS_SECURITY_WEP_KEY_FLAGS, NM_SETTING_SECRET_FLAG_NONE, NM_SETTING_WIRELESS_SECURITY_LEAP_PASSWORD_FLAGS, NM_SETTING_SECRET_FLAG_NONE, NULL); g_assert (_nm_connection_aggregate (connection, NM_CONNECTION_AGGREGATE_ANY_SECRETS, NULL)); g_assert (_nm_connection_aggregate (connection, NM_CONNECTION_AGGREGATE_ANY_SYSTEM_SECRET_FLAGS, NULL)); dict = nm_connection_to_dbus (connection, NM_CONNECTION_SERIALIZE_ALL); /* Make sure the keys of the first level dict are setting names, not * the GType name of the setting objects. */ g_assert (_variant_contains (dict, NM_SETTING_WIRELESS_SECURITY_SETTING_NAME)); g_variant_unref (dict); g_object_unref (connection); } static void test_connection_to_dbus_deprecated_props (void) { NMConnection *connection; NMSetting *s_wireless; GBytes *ssid; NMSettingWirelessSecurity *s_wsec; GVariant *dict, *wireless_dict, *sec_val; connection = nmtst_create_minimal_connection ("test-connection-to-dbus-deprecated-props", NULL, NM_SETTING_WIRELESS_SETTING_NAME, NULL); s_wireless = nm_setting_wireless_new (); ssid = g_bytes_new ("1234567", 7); g_object_set (s_wireless, NM_SETTING_WIRELESS_SSID, ssid, NULL); g_bytes_unref (ssid); nm_connection_add_setting (connection, s_wireless); /* Serialization should not have an 802-11-wireless.security property */ dict = nm_connection_to_dbus (connection, NM_CONNECTION_SERIALIZE_ALL); g_assert (dict != NULL); wireless_dict = g_variant_lookup_value (dict, NM_SETTING_WIRELESS_SETTING_NAME, NM_VARIANT_TYPE_SETTING); g_assert (wireless_dict != NULL); sec_val = g_variant_lookup_value (wireless_dict, "security", NULL); g_assert (sec_val == NULL); g_variant_unref (wireless_dict); g_variant_unref (dict); /* Now add an NMSettingWirelessSecurity and try again */ s_wsec = make_test_wsec_setting ("test-connection-to-dbus-deprecated-props"); nm_connection_add_setting (connection, NM_SETTING (s_wsec)); dict = nm_connection_to_dbus (connection, NM_CONNECTION_SERIALIZE_ALL); g_assert (dict != NULL); wireless_dict = g_variant_lookup_value (dict, NM_SETTING_WIRELESS_SETTING_NAME, NM_VARIANT_TYPE_SETTING); g_assert (wireless_dict != NULL); sec_val = g_variant_lookup_value (wireless_dict, "security", NULL); g_assert (g_variant_is_of_type (sec_val, G_VARIANT_TYPE_STRING)); g_assert_cmpstr (g_variant_get_string (sec_val, NULL), ==, NM_SETTING_WIRELESS_SECURITY_SETTING_NAME); g_variant_unref (sec_val); g_variant_unref (wireless_dict); g_variant_unref (dict); g_object_unref (connection); } static void test_setting_new_from_dbus (void) { NMSettingWirelessSecurity *s_wsec; GVariant *dict; s_wsec = make_test_wsec_setting ("setting-new-from-dbus"); dict = _nm_setting_to_dbus (NM_SETTING (s_wsec), NULL, NM_CONNECTION_SERIALIZE_ALL, NULL); g_object_unref (s_wsec); s_wsec = (NMSettingWirelessSecurity *) _nm_setting_new_from_dbus (NM_TYPE_SETTING_WIRELESS_SECURITY, dict, NULL, NM_SETTING_PARSE_FLAGS_NONE, NULL); g_variant_unref (dict); g_assert (s_wsec); g_assert_cmpstr (nm_setting_wireless_security_get_key_mgmt (s_wsec), ==, "wpa-psk"); g_assert_cmpstr (nm_setting_wireless_security_get_leap_username (s_wsec), ==, "foobarbaz"); g_assert_cmpstr (nm_setting_wireless_security_get_psk (s_wsec), ==, "random psk"); g_object_unref (s_wsec); } static void test_setting_new_from_dbus_transform (void) { NMSetting *s_wired; GVariant *dict; GVariantBuilder builder; const char *test_mac_address = "11:22:33:44:55:66"; guint8 dbus_mac_address[ETH_ALEN]; GError *error = NULL; nm_utils_hwaddr_aton (test_mac_address, dbus_mac_address, ETH_ALEN); g_variant_builder_init (&builder, NM_VARIANT_TYPE_SETTING); g_variant_builder_add (&builder, "{sv}", NM_SETTING_WIRED_MAC_ADDRESS, g_variant_new_fixed_array (G_VARIANT_TYPE_BYTE, dbus_mac_address, ETH_ALEN, 1)); dict = g_variant_builder_end (&builder); s_wired = _nm_setting_new_from_dbus (NM_TYPE_SETTING_WIRED, dict, NULL, NM_SETTING_PARSE_FLAGS_NONE, &error); g_assert_no_error (error); g_assert_cmpstr (nm_setting_wired_get_mac_address (NM_SETTING_WIRED (s_wired)), ==, test_mac_address); g_variant_unref (dict); g_object_unref (s_wired); } static void test_setting_new_from_dbus_enum (void) { NMSettingIP6Config *s_ip6; NMSettingWirelessSecurity *s_wsec; NMSettingSerial *s_serial; GVariant *dict; GVariantBuilder builder; GError *error = NULL; /* enum */ g_variant_builder_init (&builder, NM_VARIANT_TYPE_SETTING); g_variant_builder_add (&builder, "{sv}", NM_SETTING_IP6_CONFIG_IP6_PRIVACY, g_variant_new_int32 (NM_SETTING_IP6_CONFIG_PRIVACY_PREFER_TEMP_ADDR)); dict = g_variant_builder_end (&builder); s_ip6 = (NMSettingIP6Config *) _nm_setting_new_from_dbus (NM_TYPE_SETTING_IP6_CONFIG, dict, NULL, NM_SETTING_PARSE_FLAGS_NONE, &error); g_assert_no_error (error); g_assert_cmpint (nm_setting_ip6_config_get_ip6_privacy (s_ip6), ==, NM_SETTING_IP6_CONFIG_PRIVACY_PREFER_TEMP_ADDR); g_variant_unref (dict); g_object_unref (s_ip6); /* flags (and a transformed enum) */ g_variant_builder_init (&builder, NM_VARIANT_TYPE_SETTING); g_variant_builder_add (&builder, "{sv}", NM_SETTING_WIRELESS_SECURITY_WEP_KEY_TYPE, g_variant_new_uint32 (NM_WEP_KEY_TYPE_KEY)); g_variant_builder_add (&builder, "{sv}", NM_SETTING_WIRELESS_SECURITY_WEP_KEY_FLAGS, g_variant_new_uint32 (NM_SETTING_SECRET_FLAG_AGENT_OWNED | NM_SETTING_SECRET_FLAG_NOT_SAVED)); dict = g_variant_builder_end (&builder); s_wsec = (NMSettingWirelessSecurity *) _nm_setting_new_from_dbus (NM_TYPE_SETTING_WIRELESS_SECURITY, dict, NULL, NM_SETTING_PARSE_FLAGS_NONE, &error); g_assert_no_error (error); g_assert_cmpint (nm_setting_wireless_security_get_wep_key_type (s_wsec), ==, NM_WEP_KEY_TYPE_KEY); g_assert_cmpint (nm_setting_wireless_security_get_wep_key_flags (s_wsec), ==, (NM_SETTING_SECRET_FLAG_AGENT_OWNED | NM_SETTING_SECRET_FLAG_NOT_SAVED)); g_variant_unref (dict); g_object_unref (s_wsec); /* another transformed enum */ g_variant_builder_init (&builder, NM_VARIANT_TYPE_SETTING); g_variant_builder_add (&builder, "{sv}", NM_SETTING_SERIAL_PARITY, g_variant_new_byte ('E')); dict = g_variant_builder_end (&builder); s_serial = (NMSettingSerial *) _nm_setting_new_from_dbus (NM_TYPE_SETTING_SERIAL, dict, NULL, NM_SETTING_PARSE_FLAGS_NONE, &error); g_assert_no_error (error); g_assert_cmpint (nm_setting_serial_get_parity (s_serial), ==, NM_SETTING_SERIAL_PARITY_EVEN); g_variant_unref (dict); g_object_unref (s_serial); } static void test_setting_new_from_dbus_bad (void) { NMSetting *setting; NMConnection *conn; GBytes *ssid; GPtrArray *addrs; GVariant *orig_dict, *dict; GError *error = NULL; /* We want to test: * - ordinary scalar properties * - string properties * - GBytes-valued properties (which are handled specially by set_property_from_dbus()) * - enum/flags-valued properties * - overridden properties * - transformed properties * * No single setting class has examples of all of these, so we need two settings. */ conn = nm_simple_connection_new (); setting = nm_setting_connection_new (); g_object_set (setting, NM_SETTING_CONNECTION_ID, "test", NM_SETTING_CONNECTION_UUID, "83c5a841-1759-4cdb-bfce-8d4087956497", NULL); nm_connection_add_setting (conn, setting); setting = nm_setting_wireless_new (); ssid = g_bytes_new ("my-ssid", 7); g_object_set (setting, /* scalar */ NM_SETTING_WIRELESS_RATE, 100, /* string */ NM_SETTING_WIRELESS_MODE, NM_SETTING_WIRELESS_MODE_INFRA, /* GBytes */ NM_SETTING_WIRELESS_SSID, ssid, /* transformed */ NM_SETTING_WIRELESS_BSSID, "00:11:22:33:44:55", NULL); g_bytes_unref (ssid); nm_connection_add_setting (conn, setting); setting = nm_setting_ip6_config_new (); addrs = g_ptr_array_new_with_free_func ((GDestroyNotify) nm_ip_address_unref); g_ptr_array_add (addrs, nm_ip_address_new (AF_INET6, "1234::5678", 64, NULL)); g_object_set (setting, /* enum */ NM_SETTING_IP6_CONFIG_IP6_PRIVACY, NM_SETTING_IP6_CONFIG_PRIVACY_PREFER_PUBLIC_ADDR, /* overridden */ NM_SETTING_IP_CONFIG_ADDRESSES, addrs, /* (needed in order to verify()) */ NM_SETTING_IP_CONFIG_METHOD, NM_SETTING_IP6_CONFIG_METHOD_AUTO, NULL); g_ptr_array_unref (addrs); nm_connection_add_setting (conn, setting); orig_dict = nm_connection_to_dbus (conn, NM_CONNECTION_SERIALIZE_ALL); g_object_unref (conn); /* sanity-check */ conn = _connection_new_from_dbus (orig_dict, &error); g_assert_no_error (error); g_assert (conn); g_object_unref (conn); /* Compatible mismatches */ dict = g_variant_ref (orig_dict); NMTST_VARIANT_EDITOR (dict, NMTST_VARIANT_CHANGE_PROPERTY (NM_SETTING_WIRELESS_SETTING_NAME, NM_SETTING_WIRELESS_RATE, "i", 10); ); conn = _connection_new_from_dbus (dict, &error); g_assert (conn); g_assert_no_error (error); setting = nm_connection_get_setting (conn, NM_TYPE_SETTING_WIRELESS); g_assert (setting); g_assert_cmpint (nm_setting_wireless_get_rate (NM_SETTING_WIRELESS (setting)), ==, 10); g_object_unref (conn); g_variant_unref (dict); dict = g_variant_ref (orig_dict); NMTST_VARIANT_EDITOR (dict, NMTST_VARIANT_CHANGE_PROPERTY (NM_SETTING_IP6_CONFIG_SETTING_NAME, NM_SETTING_IP6_CONFIG_IP6_PRIVACY, "i", NM_SETTING_IP6_CONFIG_PRIVACY_PREFER_TEMP_ADDR); ); conn = _connection_new_from_dbus (dict, &error); g_assert (conn); g_assert_no_error (error); setting = nm_connection_get_setting (conn, NM_TYPE_SETTING_IP6_CONFIG); g_assert (setting); g_assert_cmpint (nm_setting_ip6_config_get_ip6_privacy (NM_SETTING_IP6_CONFIG (setting)), ==, NM_SETTING_IP6_CONFIG_PRIVACY_PREFER_TEMP_ADDR); g_object_unref (conn); g_variant_unref (dict); /* Incompatible mismatches */ dict = g_variant_ref (orig_dict); NMTST_VARIANT_EDITOR (dict, NMTST_VARIANT_CHANGE_PROPERTY (NM_SETTING_WIRELESS_SETTING_NAME, NM_SETTING_WIRELESS_RATE, "s", "ten"); ); conn = _connection_new_from_dbus (dict, &error); g_assert_error (error, NM_CONNECTION_ERROR, NM_CONNECTION_ERROR_INVALID_PROPERTY); g_assert (g_str_has_prefix (error->message, "802-11-wireless.rate:")); g_clear_error (&error); g_variant_unref (dict); dict = g_variant_ref (orig_dict); NMTST_VARIANT_EDITOR (dict, NMTST_VARIANT_CHANGE_PROPERTY (NM_SETTING_WIRELESS_SETTING_NAME, NM_SETTING_WIRELESS_MODE, "b", FALSE); ); conn = _connection_new_from_dbus (dict, &error); g_assert_error (error, NM_CONNECTION_ERROR, NM_CONNECTION_ERROR_INVALID_PROPERTY); g_assert (g_str_has_prefix (error->message, "802-11-wireless.mode:")); g_clear_error (&error); g_variant_unref (dict); dict = g_variant_ref (orig_dict); NMTST_VARIANT_EDITOR (dict, NMTST_VARIANT_CHANGE_PROPERTY (NM_SETTING_WIRELESS_SETTING_NAME, NM_SETTING_WIRELESS_SSID, "s", "fred"); ); conn = _connection_new_from_dbus (dict, &error); g_assert_error (error, NM_CONNECTION_ERROR, NM_CONNECTION_ERROR_INVALID_PROPERTY); g_assert (g_str_has_prefix (error->message, "802-11-wireless.ssid:")); g_clear_error (&error); g_variant_unref (dict); dict = g_variant_ref (orig_dict); NMTST_VARIANT_EDITOR (dict, NMTST_VARIANT_CHANGE_PROPERTY (NM_SETTING_WIRELESS_SETTING_NAME, NM_SETTING_WIRELESS_BSSID, "i", 42); ); conn = _connection_new_from_dbus (dict, &error); g_assert_error (error, NM_CONNECTION_ERROR, NM_CONNECTION_ERROR_INVALID_PROPERTY); g_assert (g_str_has_prefix (error->message, "802-11-wireless.bssid:")); g_clear_error (&error); g_variant_unref (dict); dict = g_variant_ref (orig_dict); NMTST_VARIANT_EDITOR (dict, NMTST_VARIANT_CHANGE_PROPERTY (NM_SETTING_IP6_CONFIG_SETTING_NAME, NM_SETTING_IP6_CONFIG_IP6_PRIVACY, "s", "private"); ); conn = _connection_new_from_dbus (dict, &error); g_assert_error (error, NM_CONNECTION_ERROR, NM_CONNECTION_ERROR_INVALID_PROPERTY); g_assert (g_str_has_prefix (error->message, "ipv6.ip6-privacy:")); g_clear_error (&error); g_variant_unref (dict); dict = g_variant_ref (orig_dict); NMTST_VARIANT_EDITOR (dict, NMTST_VARIANT_CHANGE_PROPERTY (NM_SETTING_IP6_CONFIG_SETTING_NAME, NM_SETTING_IP_CONFIG_ADDRESSES, "s", "1234::5678"); ); conn = _connection_new_from_dbus (dict, &error); g_assert_error (error, NM_CONNECTION_ERROR, NM_CONNECTION_ERROR_INVALID_PROPERTY); g_assert (g_str_has_prefix (error->message, "ipv6.addresses:")); g_clear_error (&error); g_variant_unref (dict); g_variant_unref (orig_dict); } static NMConnection * new_test_connection (void) { NMConnection *connection; NMSetting *setting; char *uuid; guint64 timestamp = time (NULL); connection = nm_simple_connection_new (); setting = nm_setting_connection_new (); uuid = nm_utils_uuid_generate (); g_object_set (G_OBJECT (setting), NM_SETTING_CONNECTION_ID, "foobar", NM_SETTING_CONNECTION_UUID, uuid, NM_SETTING_CONNECTION_TYPE, NM_SETTING_WIRED_SETTING_NAME, NM_SETTING_CONNECTION_TIMESTAMP, timestamp, NULL); g_free (uuid); nm_connection_add_setting (connection, setting); setting = nm_setting_wired_new (); g_object_set (G_OBJECT (setting), NM_SETTING_WIRED_MTU, 1592, NULL); nm_connection_add_setting (connection, setting); setting = nm_setting_ip4_config_new (); g_object_set (G_OBJECT (setting), NM_SETTING_IP_CONFIG_METHOD, NM_SETTING_IP4_CONFIG_METHOD_AUTO, NM_SETTING_IP_CONFIG_DHCP_HOSTNAME, "eyeofthetiger", NULL); nm_connection_add_setting (connection, setting); return connection; } static GVariant * new_connection_dict (char **out_uuid, const char **out_expected_id, const char **out_expected_ip6_method) { GVariantBuilder conn_builder, setting_builder; g_variant_builder_init (&conn_builder, NM_VARIANT_TYPE_CONNECTION); *out_uuid = nm_utils_uuid_generate (); *out_expected_id = "My happy connection"; *out_expected_ip6_method = NM_SETTING_IP6_CONFIG_METHOD_LINK_LOCAL; /* Connection setting */ g_variant_builder_init (&setting_builder, NM_VARIANT_TYPE_SETTING); g_variant_builder_add (&setting_builder, "{sv}", NM_SETTING_NAME, g_variant_new_string (NM_SETTING_CONNECTION_SETTING_NAME)); g_variant_builder_add (&setting_builder, "{sv}", NM_SETTING_CONNECTION_ID, g_variant_new_string (*out_expected_id)); g_variant_builder_add (&setting_builder, "{sv}", NM_SETTING_CONNECTION_UUID, g_variant_new_string (*out_uuid)); g_variant_builder_add (&setting_builder, "{sv}", NM_SETTING_CONNECTION_TYPE, g_variant_new_string (NM_SETTING_WIRED_SETTING_NAME)); g_variant_builder_add (&conn_builder, "{sa{sv}}", NM_SETTING_CONNECTION_SETTING_NAME, &setting_builder); /* Wired setting */ g_variant_builder_init (&setting_builder, NM_VARIANT_TYPE_SETTING); g_variant_builder_add (&conn_builder, "{sa{sv}}", NM_SETTING_WIRED_SETTING_NAME, &setting_builder); /* IP6 */ g_variant_builder_init (&setting_builder, NM_VARIANT_TYPE_SETTING); g_variant_builder_add (&setting_builder, "{sv}", NM_SETTING_IP_CONFIG_METHOD, g_variant_new_string (*out_expected_ip6_method)); g_variant_builder_add (&conn_builder, "{sa{sv}}", NM_SETTING_IP6_CONFIG_SETTING_NAME, &setting_builder); return g_variant_builder_end (&conn_builder); } static void test_connection_replace_settings (void) { NMConnection *connection; GVariant *new_settings; GError *error = NULL; gboolean success; NMSettingConnection *s_con; NMSettingIPConfig *s_ip6; char *uuid = NULL; const char *expected_id = NULL, *expected_method = NULL; connection = new_test_connection (); new_settings = new_connection_dict (&uuid, &expected_id, &expected_method); g_assert (new_settings); /* Replace settings and test */ success = nm_connection_replace_settings (connection, new_settings, &error); g_assert_no_error (error); g_assert (success); s_con = nm_connection_get_setting_connection (connection); g_assert (s_con); g_assert_cmpstr (nm_setting_connection_get_id (s_con), ==, expected_id); g_assert_cmpstr (nm_setting_connection_get_uuid (s_con), ==, uuid); g_assert (nm_connection_get_setting_wired (connection)); g_assert (!nm_connection_get_setting_ip4_config (connection)); s_ip6 = nm_connection_get_setting_ip6_config (connection); g_assert (s_ip6); g_assert_cmpstr (nm_setting_ip_config_get_method (s_ip6), ==, expected_method); g_free (uuid); g_variant_unref (new_settings); g_object_unref (connection); } static void test_connection_replace_settings_from_connection (void) { NMConnection *connection, *replacement; NMSettingConnection *s_con; NMSetting *setting; GBytes *ssid; char *uuid = NULL; const char *expected_id = "Awesome connection"; connection = new_test_connection (); g_assert (connection); replacement = nm_simple_connection_new (); g_assert (replacement); /* New connection setting */ setting = nm_setting_connection_new (); g_assert (setting); uuid = nm_utils_uuid_generate (); g_object_set (setting, NM_SETTING_CONNECTION_ID, expected_id, NM_SETTING_CONNECTION_UUID, uuid, NM_SETTING_CONNECTION_TYPE, NM_SETTING_WIRELESS_SETTING_NAME, NULL); nm_connection_add_setting (replacement, setting); /* New wifi setting */ setting = nm_setting_wireless_new (); g_assert (setting); ssid = g_bytes_new ("1234567", 7); g_object_set (setting, NM_SETTING_WIRELESS_SSID, ssid, NM_SETTING_WIRELESS_MODE, "infrastructure", NULL); g_bytes_unref (ssid); nm_connection_add_setting (replacement, setting); /* Replace settings and test */ nm_connection_replace_settings_from_connection (connection, replacement); s_con = nm_connection_get_setting_connection (connection); g_assert (s_con); g_assert_cmpstr (nm_setting_connection_get_id (s_con), ==, expected_id); g_assert_cmpstr (nm_setting_connection_get_uuid (s_con), ==, uuid); g_assert (!nm_connection_get_setting_wired (connection)); g_assert (!nm_connection_get_setting_ip6_config (connection)); g_assert (nm_connection_get_setting_wireless (connection)); g_free (uuid); g_object_unref (replacement); g_object_unref (connection); } static void test_connection_replace_settings_bad (void) { NMConnection *connection, *new_connection; GVariant *new_settings; GVariantBuilder builder, setting_builder; GError *error = NULL; gboolean success; NMSettingConnection *s_con; new_connection = new_test_connection (); g_assert (nm_connection_verify (new_connection, NULL)); s_con = nm_connection_get_setting_connection (new_connection); g_object_set (s_con, NM_SETTING_CONNECTION_UUID, NULL, NM_SETTING_CONNECTION_ID, "bad-connection", NULL); g_assert (!nm_connection_verify (new_connection, NULL)); /* nm_connection_replace_settings_from_connection() should succeed */ connection = new_test_connection (); nm_connection_replace_settings_from_connection (connection, new_connection); g_assert_cmpstr (nm_connection_get_id (connection), ==, "bad-connection"); g_assert (!nm_connection_verify (connection, NULL)); g_object_unref (connection); /* nm_connection_replace_settings() should succeed */ new_settings = nm_connection_to_dbus (new_connection, NM_CONNECTION_SERIALIZE_ALL); g_assert (new_settings != NULL); connection = new_test_connection (); success = nm_connection_replace_settings (connection, new_settings, &error); g_assert_no_error (error); g_assert (success); g_assert_cmpstr (nm_connection_get_id (connection), ==, "bad-connection"); g_assert (!nm_connection_verify (connection, NULL)); g_object_unref (connection); g_variant_unref (new_settings); /* But given an invalid dict, it should fail */ g_variant_builder_init (&builder, NM_VARIANT_TYPE_CONNECTION); g_variant_builder_init (&setting_builder, NM_VARIANT_TYPE_SETTING); g_variant_builder_add (&builder, "{sa{sv}}", "ip-over-avian-carrier", &setting_builder); new_settings = g_variant_builder_end (&builder); connection = new_test_connection (); success = nm_connection_replace_settings (connection, new_settings, &error); g_assert_error (error, NM_CONNECTION_ERROR, NM_CONNECTION_ERROR_INVALID_SETTING); g_clear_error (&error); g_assert (!success); g_assert (nm_connection_verify (connection, NULL)); g_object_unref (connection); g_variant_unref (new_settings); g_object_unref (new_connection); } static void test_connection_new_from_dbus (void) { NMConnection *connection; GVariant *new_settings; GError *error = NULL; NMSettingConnection *s_con; NMSettingIPConfig *s_ip6; char *uuid = NULL; const char *expected_id = NULL, *expected_method = NULL; new_settings = new_connection_dict (&uuid, &expected_id, &expected_method); g_assert (new_settings); /* Replace settings and test */ connection = _connection_new_from_dbus (new_settings, &error); g_assert_no_error (error); g_assert (connection); s_con = nm_connection_get_setting_connection (connection); g_assert (s_con); g_assert_cmpstr (nm_setting_connection_get_id (s_con), ==, expected_id); g_assert_cmpstr (nm_setting_connection_get_uuid (s_con), ==, uuid); g_assert (nm_connection_get_setting_wired (connection)); g_assert (nm_connection_get_setting_ip4_config (connection)); s_ip6 = nm_connection_get_setting_ip6_config (connection); g_assert (s_ip6); g_assert_cmpstr (nm_setting_ip_config_get_method (s_ip6), ==, expected_method); g_free (uuid); g_variant_unref (new_settings); g_object_unref (connection); } static void check_permission (NMSettingConnection *s_con, guint32 idx, const char *expected_uname) { gboolean success; const char *ptype = NULL, *pitem = NULL, *detail = NULL; success = nm_setting_connection_get_permission (s_con, 0, &ptype, &pitem, &detail); g_assert (success); g_assert_cmpstr (ptype, ==, "user"); g_assert (pitem); g_assert_cmpstr (pitem, ==, expected_uname); g_assert (!detail); } #define TEST_UNAME "asdfasfasdf" static void test_setting_connection_permissions_helpers (void) { NMSettingConnection *s_con; gboolean success; char buf[9] = { 0x61, 0x62, 0x63, 0xff, 0xfe, 0xfd, 0x23, 0x01, 0x00 }; char **perms; const char *expected_perm = "user:" TEST_UNAME ":"; s_con = NM_SETTING_CONNECTION (nm_setting_connection_new ()); /* Ensure a bad [type] is rejected */ NMTST_EXPECT_LIBNM_CRITICAL (NMTST_G_RETURN_MSG (strcmp (ptype, "user") == 0)); success = nm_setting_connection_add_permission (s_con, "foobar", "blah", NULL); g_test_assert_expected_messages (); g_assert (!success); /* Ensure a bad [type] is rejected */ NMTST_EXPECT_LIBNM_CRITICAL (NMTST_G_RETURN_MSG (ptype && ptype[0])); success = nm_setting_connection_add_permission (s_con, NULL, "blah", NULL); g_test_assert_expected_messages (); g_assert (!success); /* Ensure a bad [item] is rejected */ NMTST_EXPECT_LIBNM_CRITICAL (NMTST_G_RETURN_MSG (uname)); NMTST_EXPECT_LIBNM_CRITICAL (NMTST_G_RETURN_MSG (p != NULL)); success = nm_setting_connection_add_permission (s_con, "user", NULL, NULL); g_test_assert_expected_messages (); g_assert (!success); /* Ensure a bad [item] is rejected */ NMTST_EXPECT_LIBNM_CRITICAL (NMTST_G_RETURN_MSG (uname[0] != '\0')); NMTST_EXPECT_LIBNM_CRITICAL (NMTST_G_RETURN_MSG (p != NULL)); success = nm_setting_connection_add_permission (s_con, "user", "", NULL); g_test_assert_expected_messages (); g_assert (!success); /* Ensure an [item] with ':' is rejected */ NMTST_EXPECT_LIBNM_CRITICAL (NMTST_G_RETURN_MSG (strchr (uname, ':') == NULL)); NMTST_EXPECT_LIBNM_CRITICAL (NMTST_G_RETURN_MSG (p != NULL)); success = nm_setting_connection_add_permission (s_con, "user", "ad:asdf", NULL); g_test_assert_expected_messages (); g_assert (!success); /* Ensure a non-UTF-8 [item] is rejected */ NMTST_EXPECT_LIBNM_CRITICAL (NMTST_G_RETURN_MSG (g_utf8_validate (uname, -1, NULL) == TRUE)); NMTST_EXPECT_LIBNM_CRITICAL (NMTST_G_RETURN_MSG (p != NULL)); success = nm_setting_connection_add_permission (s_con, "user", buf, NULL); g_test_assert_expected_messages (); g_assert (!success); /* Ensure a non-NULL [detail] is rejected */ NMTST_EXPECT_LIBNM_CRITICAL (NMTST_G_RETURN_MSG (detail == NULL)); success = nm_setting_connection_add_permission (s_con, "user", "dafasdf", "asdf"); g_test_assert_expected_messages (); g_assert (!success); /* Ensure a valid call results in success */ success = nm_setting_connection_add_permission (s_con, "user", TEST_UNAME, NULL); g_assert (success); g_assert_cmpint (nm_setting_connection_get_num_permissions (s_con), ==, 1); check_permission (s_con, 0, TEST_UNAME); /* Check the actual GObject property just to be paranoid */ g_object_get (G_OBJECT (s_con), NM_SETTING_CONNECTION_PERMISSIONS, &perms, NULL); g_assert (perms); g_assert_cmpint (g_strv_length (perms), ==, 1); g_assert_cmpstr (perms[0], ==, expected_perm); g_strfreev (perms); /* Now remove that permission and ensure we have 0 permissions */ nm_setting_connection_remove_permission (s_con, 0); g_assert_cmpint (nm_setting_connection_get_num_permissions (s_con), ==, 0); g_object_unref (s_con); } static void add_permission_property (NMSettingConnection *s_con, const char *ptype, const char *pitem, int pitem_len, const char *detail) { GString *str; char *perms[2]; str = g_string_sized_new (50); if (ptype) g_string_append (str, ptype); g_string_append_c (str, ':'); if (pitem) { if (pitem_len >= 0) g_string_append_len (str, pitem, pitem_len); else g_string_append (str, pitem); } g_string_append_c (str, ':'); if (detail) g_string_append (str, detail); perms[0] = str->str; perms[1] = NULL; g_object_set (G_OBJECT (s_con), NM_SETTING_CONNECTION_PERMISSIONS, perms, NULL); g_string_free (str, TRUE); } static void test_setting_connection_permissions_property (void) { NMSettingConnection *s_con; gboolean success; char buf[9] = { 0x61, 0x62, 0x63, 0xff, 0xfe, 0xfd, 0x23, 0x01, 0x00 }; s_con = NM_SETTING_CONNECTION (nm_setting_connection_new ()); /* Ensure a bad [type] is rejected */ NMTST_EXPECT_LIBNM_CRITICAL (NMTST_G_RETURN_MSG (strncmp (str, PERM_USER_PREFIX, strlen (PERM_USER_PREFIX)) == 0)); add_permission_property (s_con, "foobar", "blah", -1, NULL); g_test_assert_expected_messages (); g_assert_cmpint (nm_setting_connection_get_num_permissions (s_con), ==, 0); /* Ensure a bad [type] is rejected */ NMTST_EXPECT_LIBNM_CRITICAL (NMTST_G_RETURN_MSG (strncmp (str, PERM_USER_PREFIX, strlen (PERM_USER_PREFIX)) == 0)); add_permission_property (s_con, NULL, "blah", -1, NULL); g_test_assert_expected_messages (); g_assert_cmpint (nm_setting_connection_get_num_permissions (s_con), ==, 0); /* Ensure a bad [item] is rejected */ NMTST_EXPECT_LIBNM_CRITICAL (NMTST_G_RETURN_MSG (last_colon > str)); add_permission_property (s_con, "user", NULL, -1, NULL); g_test_assert_expected_messages (); g_assert_cmpint (nm_setting_connection_get_num_permissions (s_con), ==, 0); /* Ensure a bad [item] is rejected */ NMTST_EXPECT_LIBNM_CRITICAL (NMTST_G_RETURN_MSG (last_colon > str)); add_permission_property (s_con, "user", "", -1, NULL); g_test_assert_expected_messages (); g_assert_cmpint (nm_setting_connection_get_num_permissions (s_con), ==, 0); /* Ensure an [item] with ':' in the middle is rejected */ NMTST_EXPECT_LIBNM_CRITICAL (NMTST_G_RETURN_MSG (str[i] != ':')); add_permission_property (s_con, "user", "ad:asdf", -1, NULL); g_test_assert_expected_messages (); g_assert_cmpint (nm_setting_connection_get_num_permissions (s_con), ==, 0); /* Ensure an [item] with ':' at the end is rejected */ NMTST_EXPECT_LIBNM_CRITICAL (NMTST_G_RETURN_MSG (str[i] != ':')); add_permission_property (s_con, "user", "adasdfaf:", -1, NULL); g_test_assert_expected_messages (); g_assert_cmpint (nm_setting_connection_get_num_permissions (s_con), ==, 0); /* Ensure a non-UTF-8 [item] is rejected */ NMTST_EXPECT_LIBNM_CRITICAL (NMTST_G_RETURN_MSG (g_utf8_validate (str, -1, NULL) == TRUE)); add_permission_property (s_con, "user", buf, (int) sizeof (buf), NULL); g_test_assert_expected_messages (); g_assert_cmpint (nm_setting_connection_get_num_permissions (s_con), ==, 0); /* Ensure a non-NULL [detail] is rejected */ NMTST_EXPECT_LIBNM_CRITICAL (NMTST_G_RETURN_MSG (*(last_colon + 1) == '\0')); add_permission_property (s_con, "user", "dafasdf", -1, "asdf"); g_test_assert_expected_messages (); g_assert_cmpint (nm_setting_connection_get_num_permissions (s_con), ==, 0); /* Ensure a valid call results in success */ success = nm_setting_connection_add_permission (s_con, "user", TEST_UNAME, NULL); g_assert (success); g_assert_cmpint (nm_setting_connection_get_num_permissions (s_con), ==, 1); check_permission (s_con, 0, TEST_UNAME); /* Now remove that permission and ensure we have 0 permissions */ nm_setting_connection_remove_permission (s_con, 0); g_assert_cmpint (nm_setting_connection_get_num_permissions (s_con), ==, 0); g_object_unref (s_con); } static void test_connection_compare_same (void) { NMConnection *a, *b; a = new_test_connection (); b = nm_simple_connection_new_clone (a); g_assert (nm_connection_compare (a, b, NM_SETTING_COMPARE_FLAG_EXACT)); g_object_unref (a); g_object_unref (b); } static void test_connection_compare_key_only_in_a (void) { NMConnection *a, *b; NMSettingConnection *s_con; a = new_test_connection (); b = nm_simple_connection_new_clone (a); s_con = (NMSettingConnection *) nm_connection_get_setting (b, NM_TYPE_SETTING_CONNECTION); g_assert (s_con); g_object_set (s_con, NM_SETTING_CONNECTION_TIMESTAMP, (guint64) 0, NULL); g_assert (!nm_connection_compare (a, b, NM_SETTING_COMPARE_FLAG_EXACT)); g_object_unref (a); g_object_unref (b); } static void test_connection_compare_setting_only_in_a (void) { NMConnection *a, *b; a = new_test_connection (); b = nm_simple_connection_new_clone (a); nm_connection_remove_setting (b, NM_TYPE_SETTING_IP4_CONFIG); g_assert (!nm_connection_compare (a, b, NM_SETTING_COMPARE_FLAG_EXACT)); g_object_unref (a); g_object_unref (b); } static void test_connection_compare_key_only_in_b (void) { NMConnection *a, *b; NMSettingConnection *s_con; a = new_test_connection (); b = nm_simple_connection_new_clone (a); s_con = (NMSettingConnection *) nm_connection_get_setting (b, NM_TYPE_SETTING_CONNECTION); g_assert (s_con); g_object_set (s_con, NM_SETTING_CONNECTION_TIMESTAMP, (guint64) 0, NULL); g_assert (!nm_connection_compare (a, b, NM_SETTING_COMPARE_FLAG_EXACT)); g_object_unref (a); g_object_unref (b); } static void test_connection_compare_setting_only_in_b (void) { NMConnection *a, *b; a = new_test_connection (); b = nm_simple_connection_new_clone (a); nm_connection_remove_setting (a, NM_TYPE_SETTING_IP4_CONFIG); g_assert (!nm_connection_compare (a, b, NM_SETTING_COMPARE_FLAG_EXACT)); g_object_unref (a); g_object_unref (b); } typedef struct { const char *key_name; guint32 result; } DiffKey; typedef struct { const char *name; DiffKey keys[30]; } DiffSetting; #define ARRAY_LEN(a) (sizeof (a) / sizeof (a[0])) static void ensure_diffs (GHashTable *diffs, const DiffSetting *check, gsize n_check) { guint i; g_assert (g_hash_table_size (diffs) == n_check); /* Loop through the settings */ for (i = 0; i < n_check; i++) { GHashTable *setting_hash; guint z = 0; setting_hash = g_hash_table_lookup (diffs, check[i].name); g_assert (setting_hash); /* Get the number of keys to check */ while (check[i].keys[z].key_name) z++; g_assert (g_hash_table_size (setting_hash) == z); /* Now compare the actual keys */ for (z = 0; check[i].keys[z].key_name; z++) { NMSettingDiffResult result; result = GPOINTER_TO_UINT (g_hash_table_lookup (setting_hash, check[i].keys[z].key_name)); g_assert (result == check[i].keys[z].result); } } } static void test_connection_diff_a_only (void) { NMConnection *connection; GHashTable *out_diffs = NULL; gboolean same; const DiffSetting settings[] = { { NM_SETTING_CONNECTION_SETTING_NAME, { { NM_SETTING_CONNECTION_ID, NM_SETTING_DIFF_RESULT_IN_A }, { NM_SETTING_CONNECTION_UUID, NM_SETTING_DIFF_RESULT_IN_A }, { NM_SETTING_CONNECTION_STABLE_ID, NM_SETTING_DIFF_RESULT_IN_A }, { NM_SETTING_CONNECTION_INTERFACE_NAME, NM_SETTING_DIFF_RESULT_IN_A }, { NM_SETTING_CONNECTION_TYPE, NM_SETTING_DIFF_RESULT_IN_A }, { NM_SETTING_CONNECTION_TIMESTAMP, NM_SETTING_DIFF_RESULT_IN_A }, { NM_SETTING_CONNECTION_AUTOCONNECT, NM_SETTING_DIFF_RESULT_IN_A }, { NM_SETTING_CONNECTION_AUTOCONNECT_PRIORITY, NM_SETTING_DIFF_RESULT_IN_A }, { NM_SETTING_CONNECTION_AUTOCONNECT_RETRIES, NM_SETTING_DIFF_RESULT_IN_A }, { NM_SETTING_CONNECTION_MULTI_CONNECT, NM_SETTING_DIFF_RESULT_IN_A }, { NM_SETTING_CONNECTION_READ_ONLY, NM_SETTING_DIFF_RESULT_IN_A }, { NM_SETTING_CONNECTION_PERMISSIONS, NM_SETTING_DIFF_RESULT_IN_A }, { NM_SETTING_CONNECTION_ZONE, NM_SETTING_DIFF_RESULT_IN_A }, { NM_SETTING_CONNECTION_MASTER, NM_SETTING_DIFF_RESULT_IN_A }, { NM_SETTING_CONNECTION_SLAVE_TYPE, NM_SETTING_DIFF_RESULT_IN_A }, { NM_SETTING_CONNECTION_AUTOCONNECT_SLAVES, NM_SETTING_DIFF_RESULT_IN_A }, { NM_SETTING_CONNECTION_SECONDARIES, NM_SETTING_DIFF_RESULT_IN_A }, { NM_SETTING_CONNECTION_GATEWAY_PING_TIMEOUT, NM_SETTING_DIFF_RESULT_IN_A }, { NM_SETTING_CONNECTION_METERED, NM_SETTING_DIFF_RESULT_IN_A }, { NM_SETTING_CONNECTION_LLDP, NM_SETTING_DIFF_RESULT_IN_A }, { NM_SETTING_CONNECTION_AUTH_RETRIES, NM_SETTING_DIFF_RESULT_IN_A }, { NM_SETTING_CONNECTION_MDNS, NM_SETTING_DIFF_RESULT_IN_A }, { NM_SETTING_CONNECTION_LLMNR, NM_SETTING_DIFF_RESULT_IN_A }, { NM_SETTING_CONNECTION_WAIT_DEVICE_TIMEOUT, NM_SETTING_DIFF_RESULT_IN_A }, { NULL, NM_SETTING_DIFF_RESULT_UNKNOWN } } }, { NM_SETTING_WIRED_SETTING_NAME, { { NM_SETTING_WIRED_PORT, NM_SETTING_DIFF_RESULT_IN_A }, { NM_SETTING_WIRED_SPEED, NM_SETTING_DIFF_RESULT_IN_A }, { NM_SETTING_WIRED_DUPLEX, NM_SETTING_DIFF_RESULT_IN_A }, { NM_SETTING_WIRED_AUTO_NEGOTIATE, NM_SETTING_DIFF_RESULT_IN_A }, { NM_SETTING_WIRED_MAC_ADDRESS, NM_SETTING_DIFF_RESULT_IN_A }, { NM_SETTING_WIRED_CLONED_MAC_ADDRESS, NM_SETTING_DIFF_RESULT_IN_A }, { NM_SETTING_WIRED_GENERATE_MAC_ADDRESS_MASK, NM_SETTING_DIFF_RESULT_IN_A }, { NM_SETTING_WIRED_MAC_ADDRESS_BLACKLIST, NM_SETTING_DIFF_RESULT_IN_A }, { NM_SETTING_WIRED_MTU, NM_SETTING_DIFF_RESULT_IN_A }, { NM_SETTING_WIRED_S390_SUBCHANNELS, NM_SETTING_DIFF_RESULT_IN_A }, { NM_SETTING_WIRED_S390_NETTYPE, NM_SETTING_DIFF_RESULT_IN_A }, { NM_SETTING_WIRED_S390_OPTIONS, NM_SETTING_DIFF_RESULT_IN_A }, { NM_SETTING_WIRED_WAKE_ON_LAN, NM_SETTING_DIFF_RESULT_IN_A }, { NM_SETTING_WIRED_WAKE_ON_LAN_PASSWORD, NM_SETTING_DIFF_RESULT_IN_A }, { NULL, NM_SETTING_DIFF_RESULT_UNKNOWN }, } }, { NM_SETTING_IP4_CONFIG_SETTING_NAME, { { NM_SETTING_IP_CONFIG_METHOD, NM_SETTING_DIFF_RESULT_IN_A }, { NM_SETTING_IP_CONFIG_DNS, NM_SETTING_DIFF_RESULT_IN_A }, { NM_SETTING_IP_CONFIG_DNS_SEARCH, NM_SETTING_DIFF_RESULT_IN_A }, { NM_SETTING_IP_CONFIG_DNS_OPTIONS, NM_SETTING_DIFF_RESULT_IN_A }, { NM_SETTING_IP_CONFIG_ADDRESSES, NM_SETTING_DIFF_RESULT_IN_A }, { NM_SETTING_IP_CONFIG_GATEWAY, NM_SETTING_DIFF_RESULT_IN_A }, { NM_SETTING_IP_CONFIG_ROUTES, NM_SETTING_DIFF_RESULT_IN_A }, { NM_SETTING_IP_CONFIG_ROUTE_METRIC, NM_SETTING_DIFF_RESULT_IN_A }, { NM_SETTING_IP_CONFIG_ROUTE_TABLE, NM_SETTING_DIFF_RESULT_IN_A }, { NM_SETTING_IP_CONFIG_ROUTING_RULES, NM_SETTING_DIFF_RESULT_IN_A }, { NM_SETTING_IP_CONFIG_IGNORE_AUTO_ROUTES, NM_SETTING_DIFF_RESULT_IN_A }, { NM_SETTING_IP_CONFIG_IGNORE_AUTO_DNS, NM_SETTING_DIFF_RESULT_IN_A }, { NM_SETTING_IP4_CONFIG_DHCP_CLIENT_ID, NM_SETTING_DIFF_RESULT_IN_A }, { NM_SETTING_IP_CONFIG_DHCP_TIMEOUT, NM_SETTING_DIFF_RESULT_IN_A }, { NM_SETTING_IP_CONFIG_DHCP_SEND_HOSTNAME, NM_SETTING_DIFF_RESULT_IN_A }, { NM_SETTING_IP_CONFIG_DHCP_HOSTNAME, NM_SETTING_DIFF_RESULT_IN_A }, { NM_SETTING_IP4_CONFIG_DHCP_FQDN, NM_SETTING_DIFF_RESULT_IN_A }, { NM_SETTING_IP_CONFIG_NEVER_DEFAULT, NM_SETTING_DIFF_RESULT_IN_A }, { NM_SETTING_IP_CONFIG_MAY_FAIL, NM_SETTING_DIFF_RESULT_IN_A }, { NM_SETTING_IP_CONFIG_DAD_TIMEOUT, NM_SETTING_DIFF_RESULT_IN_A }, { NM_SETTING_IP_CONFIG_DNS_PRIORITY, NM_SETTING_DIFF_RESULT_IN_A }, { NULL, NM_SETTING_DIFF_RESULT_UNKNOWN }, } }, }; connection = new_test_connection (); same = nm_connection_diff (connection, NULL, NM_SETTING_COMPARE_FLAG_EXACT, &out_diffs); g_assert (same == FALSE); g_assert (out_diffs != NULL); g_assert (g_hash_table_size (out_diffs) > 0); ensure_diffs (out_diffs, settings, ARRAY_LEN (settings)); g_hash_table_destroy (out_diffs); g_object_unref (connection); } static void test_connection_diff_same (void) { NMConnection *a, *b; GHashTable *out_diffs = NULL; gboolean same; a = new_test_connection (); b = nm_simple_connection_new_clone (a); same = nm_connection_diff (a, b, NM_SETTING_COMPARE_FLAG_EXACT, &out_diffs); g_assert (same == TRUE); g_assert (out_diffs == NULL); g_object_unref (a); g_object_unref (b); } static void test_connection_diff_different (void) { NMConnection *a, *b; GHashTable *out_diffs = NULL; NMSettingIPConfig *s_ip4; gboolean same; const DiffSetting settings[] = { { NM_SETTING_IP4_CONFIG_SETTING_NAME, { { NM_SETTING_IP_CONFIG_METHOD, NM_SETTING_DIFF_RESULT_IN_A | NM_SETTING_DIFF_RESULT_IN_B }, { NULL, NM_SETTING_DIFF_RESULT_UNKNOWN }, } }, }; a = new_test_connection (); b = nm_simple_connection_new_clone (a); s_ip4 = nm_connection_get_setting_ip4_config (a); g_assert (s_ip4); g_object_set (G_OBJECT (s_ip4), NM_SETTING_IP_CONFIG_METHOD, NM_SETTING_IP4_CONFIG_METHOD_MANUAL, NULL); same = nm_connection_diff (a, b, NM_SETTING_COMPARE_FLAG_EXACT, &out_diffs); g_assert (same == FALSE); g_assert (out_diffs != NULL); g_assert (g_hash_table_size (out_diffs) > 0); ensure_diffs (out_diffs, settings, ARRAY_LEN (settings)); g_hash_table_destroy (out_diffs); g_object_unref (a); g_object_unref (b); } static void test_connection_diff_no_secrets (void) { NMConnection *a, *b; GHashTable *out_diffs = NULL; NMSetting *s_pppoe; gboolean same; const DiffSetting settings[] = { { NM_SETTING_PPPOE_SETTING_NAME, { { NM_SETTING_PPPOE_PASSWORD, NM_SETTING_DIFF_RESULT_IN_B }, { NULL, NM_SETTING_DIFF_RESULT_UNKNOWN }, } }, }; a = new_test_connection (); s_pppoe = nm_setting_pppoe_new (); g_object_set (G_OBJECT (s_pppoe), NM_SETTING_PPPOE_USERNAME, "thomas", NULL); nm_connection_add_setting (a, s_pppoe); b = nm_simple_connection_new_clone (a); /* Add a secret to B */ s_pppoe = NM_SETTING (nm_connection_get_setting_pppoe (b)); g_assert (s_pppoe); g_object_set (G_OBJECT (s_pppoe), NM_SETTING_PPPOE_PASSWORD, "secretpassword", NULL); /* Make sure the diff returns no results as secrets are ignored */ same = nm_connection_diff (a, b, NM_SETTING_COMPARE_FLAG_IGNORE_SECRETS, &out_diffs); g_assert (same == TRUE); g_assert (out_diffs == NULL); /* Now make sure the diff returns results if secrets are not ignored */ same = nm_connection_diff (a, b, NM_SETTING_COMPARE_FLAG_EXACT, &out_diffs); g_assert (same == FALSE); g_assert (out_diffs != NULL); g_assert (g_hash_table_size (out_diffs) > 0); ensure_diffs (out_diffs, settings, ARRAY_LEN (settings)); g_hash_table_destroy (out_diffs); g_object_unref (a); g_object_unref (b); } static void test_connection_diff_inferrable (void) { NMConnection *a, *b; GHashTable *out_diffs = NULL; gboolean same; NMSettingConnection *s_con; NMSettingWired *s_wired; NMSettingIPConfig *s_ip4; char *uuid; const DiffSetting settings[] = { { NM_SETTING_CONNECTION_SETTING_NAME, { { NM_SETTING_CONNECTION_INTERFACE_NAME, NM_SETTING_DIFF_RESULT_IN_A }, { NULL, NM_SETTING_DIFF_RESULT_UNKNOWN }, } }, }; a = new_test_connection (); b = nm_simple_connection_new_clone (a); /* Change the UUID, wired MTU, and set ignore-auto-dns */ s_con = nm_connection_get_setting_connection (a); g_assert (s_con); uuid = nm_utils_uuid_generate (); g_object_set (G_OBJECT (s_con), NM_SETTING_CONNECTION_UUID, uuid, NM_SETTING_CONNECTION_ID, "really neat connection", NULL); g_free (uuid); s_wired = nm_connection_get_setting_wired (a); g_assert (s_wired); g_object_set (G_OBJECT (s_wired), NM_SETTING_WIRED_MTU, 300, NULL); s_ip4 = nm_connection_get_setting_ip4_config (a); g_assert (s_ip4); g_object_set (G_OBJECT (s_ip4), NM_SETTING_IP_CONFIG_IGNORE_AUTO_DNS, TRUE, NULL); /* Make sure the diff returns no results as secrets are ignored */ same = nm_connection_diff (a, b, NM_SETTING_COMPARE_FLAG_INFERRABLE, &out_diffs); g_assert (same == TRUE); g_assert (out_diffs == NULL); /* And change a INFERRABLE property to ensure that it shows up in the diff results */ g_object_set (G_OBJECT (s_con), NM_SETTING_CONNECTION_INTERFACE_NAME, "usb0", NULL); /* Make sure the diff returns no results as secrets are ignored */ same = nm_connection_diff (a, b, NM_SETTING_COMPARE_FLAG_INFERRABLE, &out_diffs); g_assert (same == FALSE); g_assert (out_diffs != NULL); g_assert (g_hash_table_size (out_diffs) > 0); ensure_diffs (out_diffs, settings, ARRAY_LEN (settings)); g_hash_table_destroy (out_diffs); g_object_unref (a); g_object_unref (b); } static void add_generic_settings (NMConnection *connection, const char *ctype) { NMSetting *setting; char *uuid; uuid = nm_utils_uuid_generate (); setting = nm_setting_connection_new (); g_object_set (setting, NM_SETTING_CONNECTION_ID, "asdfasdfadf", NM_SETTING_CONNECTION_TYPE, ctype, NM_SETTING_CONNECTION_UUID, uuid, NULL); nm_connection_add_setting (connection, setting); g_free (uuid); setting = nm_setting_ip4_config_new (); g_object_set (setting, NM_SETTING_IP_CONFIG_METHOD, NM_SETTING_IP4_CONFIG_METHOD_AUTO, NULL); nm_connection_add_setting (connection, setting); setting = nm_setting_ip6_config_new (); g_object_set (setting, NM_SETTING_IP_CONFIG_METHOD, NM_SETTING_IP6_CONFIG_METHOD_AUTO, NULL); nm_connection_add_setting (connection, setting); } static void test_connection_good_base_types (void) { NMConnection *connection; NMSetting *setting; gboolean success; GError *error = NULL; GBytes *ssid; const char *bdaddr = "11:22:33:44:55:66"; /* Try a basic wired connection */ connection = nm_simple_connection_new (); add_generic_settings (connection, NM_SETTING_WIRED_SETTING_NAME); setting = nm_setting_wired_new (); nm_connection_add_setting (connection, setting); success = nm_connection_verify (connection, &error); g_assert_no_error (error); g_assert (success); g_object_unref (connection); /* Try a wired PPPoE connection */ connection = nm_simple_connection_new (); add_generic_settings (connection, NM_SETTING_PPPOE_SETTING_NAME); setting = nm_setting_pppoe_new (); g_object_set (setting, NM_SETTING_PPPOE_USERNAME, "bob smith", NULL); nm_connection_add_setting (connection, setting); success = nm_connection_verify (connection, &error); g_assert_no_error (error); g_assert (success); g_object_unref (connection); /* Wifi connection */ connection = nm_simple_connection_new (); add_generic_settings (connection, NM_SETTING_WIRELESS_SETTING_NAME); setting = nm_setting_wireless_new (); ssid = g_bytes_new ("1234567", 7); g_object_set (setting, NM_SETTING_WIRELESS_SSID, ssid, NM_SETTING_WIRELESS_MODE, "infrastructure", NULL); g_bytes_unref (ssid); nm_connection_add_setting (connection, setting); success = nm_connection_verify (connection, &error); g_assert_no_error (error); g_assert (success); g_object_unref (connection); /* Bluetooth connection */ connection = nm_simple_connection_new (); add_generic_settings (connection, NM_SETTING_BLUETOOTH_SETTING_NAME); setting = nm_setting_bluetooth_new (); g_object_set (setting, NM_SETTING_BLUETOOTH_BDADDR, bdaddr, NM_SETTING_CONNECTION_TYPE, NM_SETTING_BLUETOOTH_TYPE_PANU, NULL); nm_connection_add_setting (connection, setting); success = nm_connection_verify (connection, &error); g_assert_no_error (error); g_assert (success); g_object_unref (connection); /* WiMAX connection */ connection = nm_simple_connection_new (); add_generic_settings (connection, NM_SETTING_WIMAX_SETTING_NAME); setting = nm_setting_wimax_new (); g_object_set (setting, NM_SETTING_WIMAX_NETWORK_NAME, "CLEAR", NULL); nm_connection_add_setting (connection, setting); success = nm_connection_verify (connection, &error); g_assert_no_error (error); g_assert (success); g_object_unref (connection); /* GSM connection */ connection = nm_simple_connection_new (); add_generic_settings (connection, NM_SETTING_GSM_SETTING_NAME); setting = nm_setting_gsm_new (); g_object_set (setting, NM_SETTING_GSM_APN, "metered.billing.sucks", NULL); nm_connection_add_setting (connection, setting); /* CDMA connection */ connection = nm_simple_connection_new (); add_generic_settings (connection, NM_SETTING_CDMA_SETTING_NAME); setting = nm_setting_cdma_new (); g_object_set (setting, NM_SETTING_CDMA_NUMBER, "#777", NM_SETTING_CDMA_USERNAME, "foobar@vzw.com", NULL); nm_connection_add_setting (connection, setting); success = nm_connection_verify (connection, &error); g_assert_no_error (error); g_assert (success); g_object_unref (connection); } static void test_connection_bad_base_types (void) { NMConnection *connection; NMSetting *setting; gboolean success; GError *error = NULL; /* Test various non-base connection types to make sure they are rejected; * using a fake 'wired' connection so the rest of it verifies */ /* Connection setting */ connection = nm_simple_connection_new (); add_generic_settings (connection, NM_SETTING_CONNECTION_SETTING_NAME); setting = nm_setting_wired_new (); nm_connection_add_setting (connection, setting); success = nm_connection_verify (connection, &error); g_assert_error (error, NM_CONNECTION_ERROR, NM_CONNECTION_ERROR_INVALID_PROPERTY); g_assert (g_str_has_prefix (error->message, "connection.type: ")); g_assert (success == FALSE); g_object_unref (connection); g_clear_error (&error); /* PPP setting */ connection = nm_simple_connection_new (); add_generic_settings (connection, NM_SETTING_PPP_SETTING_NAME); setting = nm_setting_wired_new (); nm_connection_add_setting (connection, setting); setting = nm_setting_ppp_new (); nm_connection_add_setting (connection, setting); success = nm_connection_verify (connection, &error); g_assert_error (error, NM_CONNECTION_ERROR, NM_CONNECTION_ERROR_INVALID_PROPERTY); g_assert (g_str_has_prefix (error->message, "connection.type: ")); g_assert (success == FALSE); g_object_unref (connection); g_clear_error (&error); /* Serial setting */ connection = nm_simple_connection_new (); add_generic_settings (connection, NM_SETTING_SERIAL_SETTING_NAME); setting = nm_setting_wired_new (); nm_connection_add_setting (connection, setting); setting = nm_setting_serial_new (); nm_connection_add_setting (connection, setting); success = nm_connection_verify (connection, &error); g_assert_error (error, NM_CONNECTION_ERROR, NM_CONNECTION_ERROR_INVALID_PROPERTY); g_assert (g_str_has_prefix (error->message, "connection.type: ")); g_assert (success == FALSE); g_object_unref (connection); g_clear_error (&error); /* IP4 setting */ connection = nm_simple_connection_new (); add_generic_settings (connection, NM_SETTING_IP4_CONFIG_SETTING_NAME); setting = nm_setting_wired_new (); nm_connection_add_setting (connection, setting); success = nm_connection_verify (connection, &error); g_assert_error (error, NM_CONNECTION_ERROR, NM_CONNECTION_ERROR_INVALID_PROPERTY); g_assert (g_str_has_prefix (error->message, "connection.type: ")); g_assert (success == FALSE); g_object_unref (connection); g_clear_error (&error); /* IP6 setting */ connection = nm_simple_connection_new (); add_generic_settings (connection, NM_SETTING_IP6_CONFIG_SETTING_NAME); setting = nm_setting_wired_new (); nm_connection_add_setting (connection, setting); success = nm_connection_verify (connection, &error); g_assert_error (error, NM_CONNECTION_ERROR, NM_CONNECTION_ERROR_INVALID_PROPERTY); g_assert (g_str_has_prefix (error->message, "connection.type: ")); g_assert (success == FALSE); g_object_unref (connection); g_clear_error (&error); } static void test_setting_compare_id (void) { gs_unref_object NMSetting *old = NULL, *new = NULL; gboolean success; old = nm_setting_connection_new (); g_object_set (old, NM_SETTING_CONNECTION_ID, "really awesome cool connection", NM_SETTING_CONNECTION_UUID, "fbbd59d5-acab-4e30-8f86-258d272617e7", NM_SETTING_CONNECTION_AUTOCONNECT, FALSE, NULL); new = nm_setting_duplicate (old); g_object_set (new, NM_SETTING_CONNECTION_ID, "some different connection id", NULL); /* First make sure they are different */ success = nm_setting_compare (old, new, NM_SETTING_COMPARE_FLAG_EXACT); g_assert (success == FALSE); success = nm_setting_compare (old, new, NM_SETTING_COMPARE_FLAG_IGNORE_ID); g_assert (success); } static void test_setting_compare_addresses (void) { gs_unref_object NMSetting *s1 = NULL, *s2 = NULL; gboolean success; NMIPAddress *a; GHashTable *result = NULL; s1 = nm_setting_ip4_config_new (); s2 = nm_setting_ip4_config_new (); a = nm_ip_address_new (AF_INET, "192.168.7.5", 24, NULL); nm_ip_address_set_attribute (a, NM_IP_ADDRESS_ATTRIBUTE_LABEL, g_variant_new_string ("xoxoxo")); nm_setting_ip_config_add_address ((NMSettingIPConfig *) s1, a); nm_ip_address_set_attribute (a, NM_IP_ADDRESS_ATTRIBUTE_LABEL, g_variant_new_string ("hello")); nm_setting_ip_config_add_address ((NMSettingIPConfig *) s2, a); nm_ip_address_unref (a); if (nmtst_get_rand_uint32 () % 2) NMTST_SWAP (s1, s2); success = nm_setting_compare (s1, s2, NM_SETTING_COMPARE_FLAG_EXACT); g_assert (!success); success = nm_setting_diff (s1, s2, NM_SETTING_COMPARE_FLAG_EXACT, FALSE, &result); g_assert (!success); g_clear_pointer (&result, g_hash_table_unref); } static void test_setting_compare_routes (void) { gs_unref_object NMSetting *s1 = NULL, *s2 = NULL; gboolean success; NMIPRoute *r; GHashTable *result = NULL; s1 = nm_setting_ip4_config_new (); s2 = nm_setting_ip4_config_new (); r = nm_ip_route_new (AF_INET, "192.168.12.0", 24, "192.168.11.1", 473, NULL); nm_ip_route_set_attribute (r, NM_IP_ADDRESS_ATTRIBUTE_LABEL, g_variant_new_string ("xoxoxo")); nm_setting_ip_config_add_route ((NMSettingIPConfig *) s1, r); nm_ip_route_set_attribute (r, NM_IP_ADDRESS_ATTRIBUTE_LABEL, g_variant_new_string ("hello")); nm_setting_ip_config_add_route ((NMSettingIPConfig *) s2, r); nm_ip_route_unref (r); if (nmtst_get_rand_uint32 () % 2) NMTST_SWAP (s1, s2); success = nm_setting_compare (s1, s2, NM_SETTING_COMPARE_FLAG_EXACT); g_assert (!success); success = nm_setting_diff (s1, s2, NM_SETTING_COMPARE_FLAG_EXACT, FALSE, &result); g_assert (!success); g_clear_pointer (&result, g_hash_table_unref); } static void test_setting_compare_wired_cloned_mac_address (void) { gs_unref_object NMSetting *old = NULL, *new = NULL; gboolean success; gs_free char *str1 = NULL; old = nm_setting_wired_new (); g_object_set (old, NM_SETTING_WIRED_CLONED_MAC_ADDRESS, "stable", NULL); g_assert_cmpstr ("stable", ==, nm_setting_wired_get_cloned_mac_address ((NMSettingWired *) old)); g_object_get (old, NM_SETTING_WIRED_CLONED_MAC_ADDRESS, &str1, NULL); g_assert_cmpstr ("stable", ==, str1); g_clear_pointer (&str1, g_free); new = nm_setting_duplicate (old); g_object_set (new, NM_SETTING_WIRED_CLONED_MAC_ADDRESS, "11:22:33:44:55:66", NULL); g_assert_cmpstr ("11:22:33:44:55:66", ==, nm_setting_wired_get_cloned_mac_address ((NMSettingWired *) new)); g_object_get (new, NM_SETTING_WIRED_CLONED_MAC_ADDRESS, &str1, NULL); g_assert_cmpstr ("11:22:33:44:55:66", ==, str1); g_clear_pointer (&str1, g_free); success = nm_setting_compare (old, new, NM_SETTING_COMPARE_FLAG_EXACT); g_assert (!success); g_clear_object (&new); new = nm_setting_duplicate (old); g_object_set (new, NM_SETTING_WIRED_CLONED_MAC_ADDRESS, "stable-bia", NULL); g_assert_cmpstr ("stable-bia", ==, nm_setting_wired_get_cloned_mac_address ((NMSettingWired *) new)); g_object_get (new, NM_SETTING_WIRED_CLONED_MAC_ADDRESS, &str1, NULL); g_assert_cmpstr ("stable-bia", ==, str1); g_clear_pointer (&str1, g_free); success = nm_setting_compare (old, new, NM_SETTING_COMPARE_FLAG_EXACT); g_assert (!success); g_clear_object (&new); } static void test_setting_compare_wireless_cloned_mac_address (void) { gs_unref_object NMSetting *old = NULL, *new = NULL; gboolean success; gs_free char *str1 = NULL; old = nm_setting_wireless_new (); g_object_set (old, NM_SETTING_WIRELESS_CLONED_MAC_ADDRESS, "stable", NULL); g_assert_cmpstr ("stable", ==, nm_setting_wireless_get_cloned_mac_address ((NMSettingWireless *) old)); g_object_get (old, NM_SETTING_WIRELESS_CLONED_MAC_ADDRESS, &str1, NULL); g_assert_cmpstr ("stable", ==, str1); g_clear_pointer (&str1, g_free); new = nm_setting_duplicate (old); g_object_set (new, NM_SETTING_WIRELESS_CLONED_MAC_ADDRESS, "11:22:33:44:55:66", NULL); g_assert_cmpstr ("11:22:33:44:55:66", ==, nm_setting_wireless_get_cloned_mac_address ((NMSettingWireless *) new)); g_object_get (new, NM_SETTING_WIRELESS_CLONED_MAC_ADDRESS, &str1, NULL); g_assert_cmpstr ("11:22:33:44:55:66", ==, str1); g_clear_pointer (&str1, g_free); success = nm_setting_compare (old, new, NM_SETTING_COMPARE_FLAG_EXACT); g_assert (!success); g_clear_object (&new); new = nm_setting_duplicate (old); g_object_set (new, NM_SETTING_WIRELESS_CLONED_MAC_ADDRESS, "stable-bia", NULL); g_assert_cmpstr ("stable-bia", ==, nm_setting_wireless_get_cloned_mac_address ((NMSettingWireless *) new)); g_object_get (new, NM_SETTING_WIRELESS_CLONED_MAC_ADDRESS, &str1, NULL); g_assert_cmpstr ("stable-bia", ==, str1); nm_clear_g_free (&str1); success = nm_setting_compare (old, new, NM_SETTING_COMPARE_FLAG_EXACT); g_assert (!success); g_clear_object (&new); } static void test_setting_compare_timestamp (void) { gs_unref_object NMSetting *old = NULL, *new = NULL; gboolean success; old = nm_setting_connection_new (); g_object_set (old, NM_SETTING_CONNECTION_ID, "ignore timestamp connection", NM_SETTING_CONNECTION_UUID, "b047a198-0e0a-4f0e-a653-eea09bb35e40", NM_SETTING_CONNECTION_AUTOCONNECT, FALSE, NM_SETTING_CONNECTION_TIMESTAMP, (guint64) 1234567890, NULL); new = nm_setting_duplicate (old); g_object_set (new, NM_SETTING_CONNECTION_TIMESTAMP, (guint64) 1416316539, NULL); /* First make sure they are different */ success = nm_setting_compare (old, new, NM_SETTING_COMPARE_FLAG_EXACT); g_assert (success == FALSE); success = nm_setting_compare (old, new, NM_SETTING_COMPARE_FLAG_IGNORE_TIMESTAMP); g_assert (success); } typedef struct { NMSettingSecretFlags secret_flags; NMSettingCompareFlags comp_flags; gboolean remove_secret; } TestDataCompareSecrets; static TestDataCompareSecrets * test_data_compare_secrets_new (NMSettingSecretFlags secret_flags, NMSettingCompareFlags comp_flags, gboolean remove_secret) { TestDataCompareSecrets *data = g_new0 (TestDataCompareSecrets, 1); data->secret_flags = secret_flags; data->comp_flags = comp_flags; data->remove_secret = remove_secret; return data; } static void _test_compare_secrets_check_diff (NMSetting *a, NMSetting *b, NMSettingCompareFlags flags, gboolean exp_same_psk, gboolean exp_same_psk_flags) { gs_unref_hashtable GHashTable *h = NULL; NMSettingDiffResult _RESULT_IN_A = NM_SETTING_DIFF_RESULT_IN_A; NMSettingDiffResult _RESULT_IN_B = NM_SETTING_DIFF_RESULT_IN_B; gboolean invert_results; gboolean diff_result; NMSettingSecretFlags a_psk_flags = nm_setting_wireless_security_get_psk_flags (NM_SETTING_WIRELESS_SECURITY (a)); NMSettingSecretFlags b_psk_flags = nm_setting_wireless_security_get_psk_flags (NM_SETTING_WIRELESS_SECURITY (b)); const char *a_psk = nm_setting_wireless_security_get_psk (NM_SETTING_WIRELESS_SECURITY (a)); const char *b_psk = nm_setting_wireless_security_get_psk (NM_SETTING_WIRELESS_SECURITY (b)); g_assert (NM_IS_SETTING_WIRELESS_SECURITY (a)); g_assert (NM_IS_SETTING_WIRELESS_SECURITY (b)); invert_results = nmtst_get_rand_bool (); if (invert_results) { _RESULT_IN_A = NM_SETTING_DIFF_RESULT_IN_B; _RESULT_IN_B = NM_SETTING_DIFF_RESULT_IN_A; } diff_result = nm_setting_diff (a, b, flags, invert_results, &h); g_assert (exp_same_psk_flags == (a_psk_flags == b_psk_flags)); if (nm_streq0 (a_psk, b_psk)) g_assert (exp_same_psk); else { if (flags == NM_SETTING_COMPARE_FLAG_EXACT) g_assert (!exp_same_psk); else if (flags == NM_SETTING_COMPARE_FLAG_IGNORE_AGENT_OWNED_SECRETS) { if ( !NM_FLAGS_HAS (a_psk_flags, NM_SETTING_SECRET_FLAG_AGENT_OWNED) && !NM_FLAGS_HAS (b_psk_flags, NM_SETTING_SECRET_FLAG_AGENT_OWNED)) g_assert (!exp_same_psk); else if ( !NM_FLAGS_HAS (a_psk_flags, NM_SETTING_SECRET_FLAG_AGENT_OWNED) && NM_FLAGS_HAS (b_psk_flags, NM_SETTING_SECRET_FLAG_AGENT_OWNED)) g_assert (!exp_same_psk); else g_assert (exp_same_psk); } else if (flags == NM_SETTING_COMPARE_FLAG_IGNORE_NOT_SAVED_SECRETS) { if ( !NM_FLAGS_HAS (a_psk_flags, NM_SETTING_SECRET_FLAG_NOT_SAVED) && !NM_FLAGS_HAS (b_psk_flags, NM_SETTING_SECRET_FLAG_NOT_SAVED)) g_assert (!exp_same_psk); else if ( !NM_FLAGS_HAS (a_psk_flags, NM_SETTING_SECRET_FLAG_NOT_SAVED) && NM_FLAGS_HAS (b_psk_flags, NM_SETTING_SECRET_FLAG_NOT_SAVED)) g_assert (!exp_same_psk); else g_assert (exp_same_psk); } else if (flags == NM_SETTING_COMPARE_FLAG_IGNORE_SECRETS) g_assert (exp_same_psk); else g_assert_not_reached (); } g_assert (diff_result == (exp_same_psk && exp_same_psk_flags)); g_assert (diff_result == (!h)); if (!diff_result) { if (flags == NM_SETTING_COMPARE_FLAG_EXACT) g_assert (!exp_same_psk); else if ( NM_IN_SET (flags, NM_SETTING_COMPARE_FLAG_IGNORE_AGENT_OWNED_SECRETS, NM_SETTING_COMPARE_FLAG_IGNORE_NOT_SAVED_SECRETS) && (a_psk_flags != b_psk_flags) && nm_setting_wireless_security_get_psk_flags (NM_SETTING_WIRELESS_SECURITY (a)) == NM_SETTING_SECRET_FLAG_NONE) g_assert (!exp_same_psk); else g_assert (exp_same_psk); g_assert ((!exp_same_psk) == g_hash_table_contains (h, NM_SETTING_WIRELESS_SECURITY_PSK)); if (!exp_same_psk) { if (nm_setting_wireless_security_get_psk (NM_SETTING_WIRELESS_SECURITY (a))) g_assert_cmpint (GPOINTER_TO_UINT (g_hash_table_lookup (h, NM_SETTING_WIRELESS_SECURITY_PSK)), ==, _RESULT_IN_A); else g_assert_cmpint (GPOINTER_TO_UINT (g_hash_table_lookup (h, NM_SETTING_WIRELESS_SECURITY_PSK)), ==, _RESULT_IN_B); } g_assert ((!exp_same_psk_flags) == g_hash_table_contains (h, NM_SETTING_WIRELESS_SECURITY_PSK_FLAGS)); if (!exp_same_psk_flags) { if (nm_setting_wireless_security_get_psk_flags (NM_SETTING_WIRELESS_SECURITY (a)) != NM_SETTING_SECRET_FLAG_NONE) g_assert_cmpint (GPOINTER_TO_UINT (g_hash_table_lookup (h, NM_SETTING_WIRELESS_SECURITY_PSK_FLAGS)), ==, _RESULT_IN_A); else g_assert_cmpint (GPOINTER_TO_UINT (g_hash_table_lookup (h, NM_SETTING_WIRELESS_SECURITY_PSK_FLAGS)), ==, _RESULT_IN_B); } g_assert_cmpint (g_hash_table_size (h), ==, (!exp_same_psk) + (!exp_same_psk_flags)); } g_assert (diff_result == nm_setting_compare (a, b, flags)); g_assert (diff_result == nm_setting_compare (b, a, flags)); } static void test_setting_compare_secrets (gconstpointer test_data) { const TestDataCompareSecrets *data = test_data; gs_unref_object NMConnection *conn_old = NULL; gs_unref_object NMConnection *conn_new = NULL; gs_unref_object NMSetting *old = NULL; gs_unref_object NMSetting *new = NULL; /* Make sure that a connection with transient/unsaved secrets compares * successfully to the same connection without those secrets. */ old = nm_setting_wireless_security_new (); g_object_set (old, NM_SETTING_WIRELESS_SECURITY_KEY_MGMT, "wpa-psk", NM_SETTING_WIRELESS_SECURITY_PSK, "really cool psk", NULL); nm_setting_set_secret_flags (old, NM_SETTING_WIRELESS_SECURITY_PSK, data->secret_flags, NULL); new = nm_setting_duplicate (old); if (data->remove_secret) g_object_set (new, NM_SETTING_WIRELESS_SECURITY_PSK, NULL, NULL); g_assert ((!data->remove_secret) == nm_setting_compare (old, new, NM_SETTING_COMPARE_FLAG_EXACT)); g_assert ((!data->remove_secret) == nm_setting_compare (new, old, NM_SETTING_COMPARE_FLAG_EXACT)); _test_compare_secrets_check_diff (old, new, NM_SETTING_COMPARE_FLAG_EXACT, !data->remove_secret, TRUE); _test_compare_secrets_check_diff (new, old, NM_SETTING_COMPARE_FLAG_EXACT, !data->remove_secret, TRUE); g_assert (nm_setting_compare (old, new, data->comp_flags)); g_assert (nm_setting_compare (new, old, data->comp_flags)); _test_compare_secrets_check_diff (old, new, data->comp_flags, TRUE, TRUE); _test_compare_secrets_check_diff (new, old, data->comp_flags, TRUE, TRUE); /* OK. Try again, but this time not only change the secret, also let the secret flags differ... */ if (data->secret_flags != NM_SETTING_SECRET_FLAG_NONE) { nm_setting_set_secret_flags (new, NM_SETTING_WIRELESS_SECURITY_PSK, NM_SETTING_SECRET_FLAG_NONE, NULL); _test_compare_secrets_check_diff (old, new, NM_SETTING_COMPARE_FLAG_EXACT, FALSE, FALSE); _test_compare_secrets_check_diff (new, old, NM_SETTING_COMPARE_FLAG_EXACT, FALSE, FALSE); _test_compare_secrets_check_diff (old, new, data->comp_flags, TRUE, FALSE); _test_compare_secrets_check_diff (new, old, data->comp_flags, FALSE, FALSE); nm_setting_set_secret_flags (new, NM_SETTING_WIRELESS_SECURITY_PSK, data->secret_flags, NULL); } conn_old = nmtst_create_minimal_connection ("test-compare-secrets", NULL, NM_SETTING_WIRELESS_SETTING_NAME, NULL); nm_connection_add_setting (conn_old, nm_setting_duplicate (old)); conn_new = nm_simple_connection_new_clone (conn_old); nm_connection_add_setting (conn_new, nm_setting_duplicate (new)); g_assert ((!data->remove_secret) == nm_connection_compare (conn_old, conn_new, NM_SETTING_COMPARE_FLAG_EXACT)); g_assert ((!data->remove_secret) == nm_connection_compare (conn_new, conn_old, NM_SETTING_COMPARE_FLAG_EXACT)); g_assert (nm_connection_compare (conn_old, conn_new, data->comp_flags)); g_assert (nm_connection_compare (conn_new, conn_old, data->comp_flags)); } static void test_setting_compare_vpn_secrets (gconstpointer test_data) { const TestDataCompareSecrets *data = test_data; gs_unref_object NMSetting *old = NULL, *new = NULL; gboolean success; /* Make sure that a connection with transient/unsaved secrets compares * successfully to the same connection without those secrets. */ old = nm_setting_vpn_new (); nm_setting_vpn_add_secret (NM_SETTING_VPN (old), "foobarbaz", "really secret password"); nm_setting_vpn_add_secret (NM_SETTING_VPN (old), "asdfasdfasdf", "really adfasdfasdfasdf"); nm_setting_vpn_add_secret (NM_SETTING_VPN (old), "0123456778", "abcdefghijklmnpqrstuvqxyz"); nm_setting_vpn_add_secret (NM_SETTING_VPN (old), "borkbork", "yet another really secret password"); nm_setting_set_secret_flags (old, "borkbork", data->secret_flags, NULL); /* Clear "borkbork" from the duplicated setting */ new = nm_setting_duplicate (old); if (data->remove_secret) { nm_setting_vpn_remove_secret (NM_SETTING_VPN (new), "borkbork"); /* First make sure they are different */ success = nm_setting_compare (old, new, NM_SETTING_COMPARE_FLAG_EXACT); g_assert (success == FALSE); } success = nm_setting_compare (old, new, data->comp_flags); g_assert (success); } static void test_hwaddr_aton_ether_normal (void) { guint8 buf[100]; guint8 expected[ETH_ALEN] = { 0x00, 0x11, 0x22, 0x33, 0x44, 0x55 }; g_assert (nm_utils_hwaddr_aton ("00:11:22:33:44:55", buf, ETH_ALEN) != NULL); g_assert (memcmp (buf, expected, sizeof (expected)) == 0); } static void test_hwaddr_aton_ib_normal (void) { guint8 buf[100]; const char *source = "00:11:22:33:44:55:66:77:88:99:01:12:23:34:45:56:67:78:89:90"; guint8 expected[INFINIBAND_ALEN] = { 0x00, 0x11, 0x22, 0x33, 0x44, 0x55, 0x66, 0x77, 0x88, 0x99, 0x01, 0x12, 0x23, 0x34, 0x45, 0x56, 0x67, 0x78, 0x89, 0x90 }; g_assert (nm_utils_hwaddr_aton (source, buf, INFINIBAND_ALEN) != NULL); g_assert (memcmp (buf, expected, sizeof (expected)) == 0); } static void test_hwaddr_aton_no_leading_zeros (void) { guint8 buf[100]; guint8 expected[ETH_ALEN] = { 0x00, 0x1A, 0x2B, 0x03, 0x44, 0x05 }; g_assert (nm_utils_hwaddr_aton ("0:1a:2B:3:44:5", buf, ETH_ALEN) != NULL); g_assert (memcmp (buf, expected, sizeof (expected)) == 0); } static void test_hwaddr_aton_malformed (void) { guint8 buf[100]; g_assert (nm_utils_hwaddr_aton ("0:1a:2B:3:a@%%", buf, ETH_ALEN) == NULL); } static void test_hwaddr_equal (void) { const char *string = "00:1a:2b:03:44:05"; const char *upper_string = "00:1A:2B:03:44:05"; const char *bad_string = "0:1a:2b:3:44:5"; const guint8 binary[ETH_ALEN] = { 0x00, 0x1A, 0x2B, 0x03, 0x44, 0x05 }; const char *other_string = "1a:2b:03:44:05:00"; const guint8 other_binary[ETH_ALEN] = { 0x1A, 0x2B, 0x03, 0x44, 0x05, 0x00 }; const char *long_string = "00:1a:2b:03:44:05:06:07"; const guint8 long_binary[8] = { 0x00, 0x1A, 0x2B, 0x03, 0x44, 0x05, 0x06, 0x07 }; const char *null_string = "00:00:00:00:00:00"; const guint8 null_binary[ETH_ALEN] = { 0x00, 0x00, 0x00, 0x00, 0x00, 0x00 }; g_assert (nm_utils_hwaddr_matches (string, -1, string, -1)); g_assert (nm_utils_hwaddr_matches (string, -1, upper_string, -1)); g_assert (nm_utils_hwaddr_matches (string, -1, bad_string, -1)); g_assert (nm_utils_hwaddr_matches (string, -1, binary, sizeof (binary))); g_assert (!nm_utils_hwaddr_matches (string, -1, other_string, -1)); g_assert (!nm_utils_hwaddr_matches (string, -1, other_binary, sizeof (other_binary))); g_assert (!nm_utils_hwaddr_matches (string, -1, long_string, -1)); g_assert (!nm_utils_hwaddr_matches (string, -1, long_binary, sizeof (long_binary))); g_assert (!nm_utils_hwaddr_matches (string, -1, null_string, -1)); g_assert (!nm_utils_hwaddr_matches (string, -1, null_binary, sizeof (null_binary))); g_assert (!nm_utils_hwaddr_matches (string, -1, NULL, ETH_ALEN)); g_assert (nm_utils_hwaddr_matches (binary, sizeof (binary), string, -1)); g_assert (nm_utils_hwaddr_matches (binary, sizeof (binary), upper_string, -1)); g_assert (nm_utils_hwaddr_matches (binary, sizeof (binary), bad_string, -1)); g_assert (nm_utils_hwaddr_matches (binary, sizeof (binary), binary, sizeof (binary))); g_assert (!nm_utils_hwaddr_matches (binary, sizeof (binary), other_string, -1)); g_assert (!nm_utils_hwaddr_matches (binary, sizeof (binary), other_binary, sizeof (other_binary))); g_assert (!nm_utils_hwaddr_matches (binary, sizeof (binary), long_string, -1)); g_assert (!nm_utils_hwaddr_matches (binary, sizeof (binary), long_binary, sizeof (long_binary))); g_assert (!nm_utils_hwaddr_matches (binary, sizeof (binary), null_string, -1)); g_assert (!nm_utils_hwaddr_matches (binary, sizeof (binary), null_binary, sizeof (null_binary))); g_assert (!nm_utils_hwaddr_matches (binary, sizeof (binary), NULL, ETH_ALEN)); g_assert (!nm_utils_hwaddr_matches (null_string, -1, string, -1)); g_assert (!nm_utils_hwaddr_matches (null_string, -1, upper_string, -1)); g_assert (!nm_utils_hwaddr_matches (null_string, -1, bad_string, -1)); g_assert (!nm_utils_hwaddr_matches (null_string, -1, binary, sizeof (binary))); g_assert (!nm_utils_hwaddr_matches (null_string, -1, other_string, -1)); g_assert (!nm_utils_hwaddr_matches (null_string, -1, other_binary, sizeof (other_binary))); g_assert (!nm_utils_hwaddr_matches (null_string, -1, long_string, -1)); g_assert (!nm_utils_hwaddr_matches (null_string, -1, long_binary, sizeof (long_binary))); g_assert (nm_utils_hwaddr_matches (null_string, -1, null_string, -1)); g_assert (nm_utils_hwaddr_matches (null_string, -1, null_binary, sizeof (null_binary))); g_assert (nm_utils_hwaddr_matches (null_string, -1, NULL, ETH_ALEN)); g_assert (!nm_utils_hwaddr_matches (null_binary, sizeof (null_binary), string, -1)); g_assert (!nm_utils_hwaddr_matches (null_binary, sizeof (null_binary), upper_string, -1)); g_assert (!nm_utils_hwaddr_matches (null_binary, sizeof (null_binary), bad_string, -1)); g_assert (!nm_utils_hwaddr_matches (null_binary, sizeof (null_binary), binary, sizeof (binary))); g_assert (!nm_utils_hwaddr_matches (null_binary, sizeof (null_binary), other_string, -1)); g_assert (!nm_utils_hwaddr_matches (null_binary, sizeof (null_binary), other_binary, sizeof (other_binary))); g_assert (!nm_utils_hwaddr_matches (null_binary, sizeof (null_binary), long_string, -1)); g_assert (!nm_utils_hwaddr_matches (null_binary, sizeof (null_binary), long_binary, sizeof (long_binary))); g_assert (nm_utils_hwaddr_matches (null_binary, sizeof (null_binary), null_string, -1)); g_assert (nm_utils_hwaddr_matches (null_binary, sizeof (null_binary), null_binary, sizeof (null_binary))); g_assert (nm_utils_hwaddr_matches (null_binary, sizeof (null_binary), NULL, ETH_ALEN)); } static void test_hwaddr_canonical (void) { const char *string = "00:1A:2B:03:44:05"; const char *lower_string = "00:1a:2b:03:44:05"; const char *short_string = "0:1a:2b:3:44:5"; const char *hyphen_string = "00-1a-2b-03-44-05"; const char *invalid_string = "00:1A:2B"; char *canonical; canonical = nm_utils_hwaddr_canonical (string, ETH_ALEN); g_assert_cmpstr (canonical, ==, string); g_free (canonical); canonical = nm_utils_hwaddr_canonical (lower_string, ETH_ALEN); g_assert_cmpstr (canonical, ==, string); g_free (canonical); canonical = nm_utils_hwaddr_canonical (short_string, ETH_ALEN); g_assert_cmpstr (canonical, ==, string); g_free (canonical); canonical = nm_utils_hwaddr_canonical (hyphen_string, ETH_ALEN); g_assert_cmpstr (canonical, ==, string); g_free (canonical); canonical = nm_utils_hwaddr_canonical (invalid_string, ETH_ALEN); g_assert_cmpstr (canonical, ==, NULL); canonical = nm_utils_hwaddr_canonical (invalid_string, -1); g_assert_cmpstr (canonical, ==, invalid_string); g_free (canonical); } static void test_connection_changed_cb (NMConnection *connection, gboolean *data) { *data = TRUE; } static guint32 _netmask_to_prefix (guint32 netmask) { guint32 prefix; guint8 v; const guint8 *p = (guint8 *) &netmask; if (p[3]) { prefix = 24; v = p[3]; } else if (p[2]) { prefix = 16; v = p[2]; } else if (p[1]) { prefix = 8; v = p[1]; } else { prefix = 0; v = p[0]; } while (v) { prefix++; v <<= 1; } g_assert_cmpint (prefix, <=, 32); /* we re-implemented the netmask-to-prefix code differently. Check * that they agree. */ g_assert_cmpint (prefix, ==, nm_utils_ip4_netmask_to_prefix (netmask)); return prefix; } static void test_ip4_prefix_to_netmask (void) { int i; for (i = 0; i<=32; i++) { guint32 netmask = _nm_utils_ip4_prefix_to_netmask (i); int plen = _netmask_to_prefix (netmask); g_assert_cmpint (i, ==, plen); { guint32 msk = 0x80000000; guint32 netmask2 = 0; guint32 prefix = i; while (prefix > 0) { netmask2 |= msk; msk >>= 1; prefix--; } g_assert_cmpint (netmask, ==, (guint32) htonl (netmask2)); } } } static void test_ip4_netmask_to_prefix (void) { int i, j; GRand *rand = g_rand_new (); g_rand_set_seed (rand, 1); for (i = 2; i<=32; i++) { guint32 netmask = _nm_utils_ip4_prefix_to_netmask (i); guint32 netmask_lowest_bit = netmask & ~_nm_utils_ip4_prefix_to_netmask (i-1); g_assert_cmpint (i, ==, _netmask_to_prefix (netmask)); for (j = 0; j < 2*i; j++) { guint32 r = g_rand_int (rand); guint32 netmask_holey; guint32 prefix_holey; netmask_holey = (netmask & r) | netmask_lowest_bit; if (netmask_holey == netmask) continue; /* create an invalid netmask with holes and check that the function * returns the longest prefix. */ prefix_holey = _netmask_to_prefix (netmask_holey); g_assert_cmpint (i, ==, prefix_holey); } } g_rand_free (rand); } #define ASSERT_CHANGED(statement) \ G_STMT_START { \ changed = FALSE; \ statement; \ g_assert (changed); \ } G_STMT_END #define ASSERT_UNCHANGED(statement) \ G_STMT_START { \ changed = FALSE; \ statement; \ g_assert (!changed); \ } G_STMT_END static void test_connection_changed_signal (void) { NMConnection *connection; gboolean changed = FALSE; connection = new_test_connection (); g_signal_connect (connection, NM_CONNECTION_CHANGED, (GCallback) test_connection_changed_cb, &changed); /* Add new setting */ ASSERT_CHANGED (nm_connection_add_setting (connection, nm_setting_vlan_new ())); /* Remove existing setting */ ASSERT_CHANGED (nm_connection_remove_setting (connection, NM_TYPE_SETTING_VLAN)); /* Remove non-existing setting */ ASSERT_UNCHANGED (nm_connection_remove_setting (connection, NM_TYPE_SETTING_VLAN)); g_object_unref (connection); } static void test_setting_connection_changed_signal (void) { NMConnection *connection; gboolean changed = FALSE; NMSettingConnection *s_con; gs_free char *uuid = NULL; connection = nm_simple_connection_new (); g_signal_connect (connection, NM_CONNECTION_CHANGED, (GCallback) test_connection_changed_cb, &changed); s_con = (NMSettingConnection *) nm_setting_connection_new (); nm_connection_add_setting (connection, NM_SETTING (s_con)); ASSERT_CHANGED (g_object_set (s_con, NM_SETTING_CONNECTION_ID, "adfadfasdfaf", NULL)); ASSERT_CHANGED (nm_setting_connection_add_permission (s_con, "user", "billsmith", NULL)); ASSERT_CHANGED (nm_setting_connection_remove_permission (s_con, 0)); NMTST_EXPECT_LIBNM_CRITICAL (NMTST_G_RETURN_MSG (iter != NULL)); ASSERT_UNCHANGED (nm_setting_connection_remove_permission (s_con, 1)); g_test_assert_expected_messages (); uuid = nm_utils_uuid_generate (); ASSERT_CHANGED (nm_setting_connection_add_secondary (s_con, uuid)); ASSERT_CHANGED (nm_setting_connection_remove_secondary (s_con, 0)); NMTST_EXPECT_LIBNM_CRITICAL (NMTST_G_RETURN_MSG (elt != NULL)); ASSERT_UNCHANGED (nm_setting_connection_remove_secondary (s_con, 1)); g_test_assert_expected_messages (); g_object_unref (connection); } static void test_setting_bond_changed_signal (void) { NMConnection *connection; gboolean changed = FALSE; NMSettingBond *s_bond; connection = nm_simple_connection_new (); g_signal_connect (connection, NM_CONNECTION_CHANGED, (GCallback) test_connection_changed_cb, &changed); s_bond = (NMSettingBond *) nm_setting_bond_new (); nm_connection_add_setting (connection, NM_SETTING (s_bond)); ASSERT_CHANGED (nm_setting_bond_add_option (s_bond, NM_SETTING_BOND_OPTION_DOWNDELAY, "10")); ASSERT_CHANGED (nm_setting_bond_remove_option (s_bond, NM_SETTING_BOND_OPTION_DOWNDELAY)); ASSERT_UNCHANGED (nm_setting_bond_remove_option (s_bond, NM_SETTING_BOND_OPTION_UPDELAY)); g_object_unref (connection); } static void test_setting_ip4_changed_signal (void) { NMConnection *connection; gboolean changed = FALSE; NMSettingIPConfig *s_ip4; NMIPAddress *addr; NMIPRoute *route; GError *error = NULL; connection = nm_simple_connection_new (); g_signal_connect (connection, NM_CONNECTION_CHANGED, (GCallback) test_connection_changed_cb, &changed); s_ip4 = (NMSettingIPConfig *) nm_setting_ip4_config_new (); nm_connection_add_setting (connection, NM_SETTING (s_ip4)); ASSERT_CHANGED (nm_setting_ip_config_add_dns (s_ip4, "11.22.0.0")); ASSERT_CHANGED (nm_setting_ip_config_remove_dns (s_ip4, 0)); NMTST_EXPECT_LIBNM_CRITICAL (NMTST_G_RETURN_MSG (idx >= 0 && idx < priv->dns->len)); ASSERT_UNCHANGED (nm_setting_ip_config_remove_dns (s_ip4, 1)); g_test_assert_expected_messages (); nm_setting_ip_config_add_dns (s_ip4, "33.44.0.0"); ASSERT_CHANGED (nm_setting_ip_config_clear_dns (s_ip4)); ASSERT_CHANGED (nm_setting_ip_config_add_dns_search (s_ip4, "foobar.com")); ASSERT_CHANGED (nm_setting_ip_config_remove_dns_search (s_ip4, 0)); NMTST_EXPECT_LIBNM_CRITICAL (NMTST_G_RETURN_MSG (idx >= 0 && idx < priv->dns_search->len)); ASSERT_UNCHANGED (nm_setting_ip_config_remove_dns_search (s_ip4, 1)); g_test_assert_expected_messages (); ASSERT_CHANGED (nm_setting_ip_config_add_dns_search (s_ip4, "foobar.com")); ASSERT_CHANGED (nm_setting_ip_config_clear_dns_searches (s_ip4)); addr = nm_ip_address_new (AF_INET, "22.33.0.0", 24, &error); g_assert_no_error (error); ASSERT_CHANGED (nm_setting_ip_config_add_address (s_ip4, addr)); ASSERT_CHANGED (nm_setting_ip_config_remove_address (s_ip4, 0)); NMTST_EXPECT_LIBNM_CRITICAL (NMTST_G_RETURN_MSG (idx >= 0 && idx < priv->addresses->len)); ASSERT_UNCHANGED (nm_setting_ip_config_remove_address (s_ip4, 1)); g_test_assert_expected_messages (); nm_setting_ip_config_add_address (s_ip4, addr); ASSERT_CHANGED (nm_setting_ip_config_clear_addresses (s_ip4)); route = nm_ip_route_new (AF_INET, "22.33.0.0", 24, NULL, 0, &error); g_assert_no_error (error); ASSERT_CHANGED (nm_setting_ip_config_add_route (s_ip4, route)); ASSERT_CHANGED (nm_setting_ip_config_remove_route (s_ip4, 0)); NMTST_EXPECT_LIBNM_CRITICAL (NMTST_G_RETURN_MSG (idx >= 0 && idx < priv->routes->len)); ASSERT_UNCHANGED (nm_setting_ip_config_remove_route (s_ip4, 1)); g_test_assert_expected_messages (); nm_setting_ip_config_add_route (s_ip4, route); ASSERT_CHANGED (nm_setting_ip_config_clear_routes (s_ip4)); ASSERT_CHANGED (nm_setting_ip_config_add_dns_option (s_ip4, "debug")); ASSERT_CHANGED (nm_setting_ip_config_remove_dns_option (s_ip4, 0)); NMTST_EXPECT_LIBNM_CRITICAL (NMTST_G_RETURN_MSG (idx >= 0 && idx < priv->dns_options->len)); ASSERT_UNCHANGED (nm_setting_ip_config_remove_dns_option (s_ip4, 1)); g_test_assert_expected_messages (); nm_ip_address_unref (addr); nm_ip_route_unref (route); g_object_unref (connection); } static void test_setting_ip6_changed_signal (void) { NMConnection *connection; gboolean changed = FALSE; NMSettingIPConfig *s_ip6; NMIPAddress *addr; NMIPRoute *route; GError *error = NULL; connection = nm_simple_connection_new (); g_signal_connect (connection, NM_CONNECTION_CHANGED, (GCallback) test_connection_changed_cb, &changed); s_ip6 = (NMSettingIPConfig *) nm_setting_ip6_config_new (); nm_connection_add_setting (connection, NM_SETTING (s_ip6)); ASSERT_CHANGED (nm_setting_ip_config_add_dns (s_ip6, "1:2:3::4:5:6")); ASSERT_CHANGED (nm_setting_ip_config_remove_dns (s_ip6, 0)); NMTST_EXPECT_LIBNM_CRITICAL (NMTST_G_RETURN_MSG (idx >= 0 && idx < priv->dns->len)); ASSERT_UNCHANGED (nm_setting_ip_config_remove_dns (s_ip6, 1)); g_test_assert_expected_messages (); nm_setting_ip_config_add_dns (s_ip6, "1:2:3::4:5:6"); ASSERT_CHANGED (nm_setting_ip_config_clear_dns (s_ip6)); ASSERT_CHANGED (nm_setting_ip_config_add_dns_search (s_ip6, "foobar.com")); ASSERT_CHANGED (nm_setting_ip_config_remove_dns_search (s_ip6, 0)); NMTST_EXPECT_LIBNM_CRITICAL (NMTST_G_RETURN_MSG (idx >= 0 && idx < priv->dns_search->len)); ASSERT_UNCHANGED (nm_setting_ip_config_remove_dns_search (s_ip6, 1)); g_test_assert_expected_messages (); nm_setting_ip_config_add_dns_search (s_ip6, "foobar.com"); ASSERT_CHANGED (nm_setting_ip_config_clear_dns_searches (s_ip6)); addr = nm_ip_address_new (AF_INET6, "1:2:3::4:5:6", 64, &error); g_assert_no_error (error); ASSERT_CHANGED (nm_setting_ip_config_add_address (s_ip6, addr)); ASSERT_CHANGED (nm_setting_ip_config_remove_address (s_ip6, 0)); NMTST_EXPECT_LIBNM_CRITICAL (NMTST_G_RETURN_MSG (idx >= 0 && idx < priv->addresses->len)); ASSERT_UNCHANGED (nm_setting_ip_config_remove_address (s_ip6, 1)); g_test_assert_expected_messages (); nm_setting_ip_config_add_address (s_ip6, addr); ASSERT_CHANGED (nm_setting_ip_config_clear_addresses (s_ip6)); route = nm_ip_route_new (AF_INET6, "1:2:3::4:5:6", 128, NULL, 0, &error); g_assert_no_error (error); ASSERT_CHANGED (nm_setting_ip_config_add_route (s_ip6, route)); ASSERT_CHANGED (nm_setting_ip_config_remove_route (s_ip6, 0)); NMTST_EXPECT_LIBNM_CRITICAL (NMTST_G_RETURN_MSG (idx >= 0 && idx < priv->routes->len)); ASSERT_UNCHANGED (nm_setting_ip_config_remove_route (s_ip6, 1)); g_test_assert_expected_messages (); nm_setting_ip_config_add_route (s_ip6, route); ASSERT_CHANGED (nm_setting_ip_config_clear_routes (s_ip6)); nm_ip_address_unref (addr); nm_ip_route_unref (route); g_object_unref (connection); } static void test_setting_vlan_changed_signal (void) { NMConnection *connection; gboolean changed = FALSE; NMSettingVlan *s_vlan; connection = nm_simple_connection_new (); g_signal_connect (connection, NM_CONNECTION_CHANGED, (GCallback) test_connection_changed_cb, &changed); s_vlan = (NMSettingVlan *) nm_setting_vlan_new (); nm_connection_add_setting (connection, NM_SETTING (s_vlan)); ASSERT_CHANGED (nm_setting_vlan_add_priority (s_vlan, NM_VLAN_INGRESS_MAP, 1, 3)); ASSERT_CHANGED (nm_setting_vlan_remove_priority (s_vlan, NM_VLAN_INGRESS_MAP, 0)); NMTST_EXPECT_LIBNM_CRITICAL (NMTST_G_RETURN_MSG (idx < g_slist_length (list))); ASSERT_UNCHANGED (nm_setting_vlan_remove_priority (s_vlan, NM_VLAN_INGRESS_MAP, 1)); g_test_assert_expected_messages (); ASSERT_CHANGED (nm_setting_vlan_add_priority_str (s_vlan, NM_VLAN_INGRESS_MAP, "1:3")); ASSERT_CHANGED (nm_setting_vlan_clear_priorities (s_vlan, NM_VLAN_INGRESS_MAP)); ASSERT_CHANGED (nm_setting_vlan_add_priority (s_vlan, NM_VLAN_EGRESS_MAP, 1, 3)); ASSERT_CHANGED (nm_setting_vlan_remove_priority (s_vlan, NM_VLAN_EGRESS_MAP, 0)); NMTST_EXPECT_LIBNM_CRITICAL (NMTST_G_RETURN_MSG (idx < g_slist_length (list))); ASSERT_UNCHANGED (nm_setting_vlan_remove_priority (s_vlan, NM_VLAN_EGRESS_MAP, 1)); g_test_assert_expected_messages (); ASSERT_CHANGED (nm_setting_vlan_add_priority_str (s_vlan, NM_VLAN_EGRESS_MAP, "1:3")); ASSERT_CHANGED (nm_setting_vlan_clear_priorities (s_vlan, NM_VLAN_EGRESS_MAP)); g_object_unref (connection); } static void test_setting_vpn_changed_signal (void) { NMConnection *connection; gboolean changed = FALSE; NMSettingVpn *s_vpn; connection = nm_simple_connection_new (); g_signal_connect (connection, NM_CONNECTION_CHANGED, (GCallback) test_connection_changed_cb, &changed); s_vpn = (NMSettingVpn *) nm_setting_vpn_new (); nm_connection_add_setting (connection, NM_SETTING (s_vpn)); ASSERT_CHANGED (nm_setting_vpn_add_data_item (s_vpn, "foobar", "baz")); ASSERT_CHANGED (nm_setting_vpn_remove_data_item (s_vpn, "foobar")); ASSERT_UNCHANGED (nm_setting_vpn_remove_data_item (s_vpn, "not added")); ASSERT_CHANGED (nm_setting_vpn_add_secret (s_vpn, "foobar", "baz")); ASSERT_CHANGED (nm_setting_vpn_remove_secret (s_vpn, "foobar")); ASSERT_UNCHANGED (nm_setting_vpn_remove_secret (s_vpn, "not added")); g_object_unref (connection); } static void test_setting_wired_changed_signal (void) { NMConnection *connection; gboolean changed = FALSE; NMSettingWired *s_wired; connection = nm_simple_connection_new (); g_signal_connect (connection, NM_CONNECTION_CHANGED, (GCallback) test_connection_changed_cb, &changed); s_wired = (NMSettingWired *) nm_setting_wired_new (); nm_connection_add_setting (connection, NM_SETTING (s_wired)); ASSERT_CHANGED (nm_setting_wired_add_s390_option (s_wired, "portno", "1")); ASSERT_CHANGED (nm_setting_wired_remove_s390_option (s_wired, "portno")); ASSERT_UNCHANGED (nm_setting_wired_remove_s390_option (s_wired, "layer2")); g_object_unref (connection); } static void test_setting_wireless_changed_signal (void) { NMConnection *connection; gboolean changed = FALSE; NMSettingWireless *s_wifi; connection = nm_simple_connection_new (); g_signal_connect (connection, NM_CONNECTION_CHANGED, (GCallback) test_connection_changed_cb, &changed); s_wifi = (NMSettingWireless *) nm_setting_wireless_new (); nm_connection_add_setting (connection, NM_SETTING (s_wifi)); ASSERT_CHANGED (nm_setting_wireless_add_seen_bssid (s_wifi, "00:11:22:33:44:55")); g_object_unref (connection); } static void test_setting_wireless_security_changed_signal (void) { NMConnection *connection; gboolean changed = FALSE; NMSettingWirelessSecurity *s_wsec; connection = nm_simple_connection_new (); g_signal_connect (connection, NM_CONNECTION_CHANGED, (GCallback) test_connection_changed_cb, &changed); s_wsec = (NMSettingWirelessSecurity *) nm_setting_wireless_security_new (); nm_connection_add_setting (connection, NM_SETTING (s_wsec)); /* Protos */ ASSERT_CHANGED (nm_setting_wireless_security_add_proto (s_wsec, "wpa")); ASSERT_CHANGED (nm_setting_wireless_security_remove_proto (s_wsec, 0)); NMTST_EXPECT_LIBNM_CRITICAL (NMTST_G_RETURN_MSG (elt != NULL)); ASSERT_UNCHANGED (nm_setting_wireless_security_remove_proto (s_wsec, 1)); g_test_assert_expected_messages (); nm_setting_wireless_security_add_proto (s_wsec, "wep"); ASSERT_CHANGED (nm_setting_wireless_security_clear_protos (s_wsec)); /* Pairwise ciphers */ ASSERT_CHANGED (nm_setting_wireless_security_add_pairwise (s_wsec, "tkip")); ASSERT_CHANGED (nm_setting_wireless_security_remove_pairwise (s_wsec, 0)); NMTST_EXPECT_LIBNM_CRITICAL (NMTST_G_RETURN_MSG (elt != NULL)); ASSERT_UNCHANGED (nm_setting_wireless_security_remove_pairwise (s_wsec, 1)); g_test_assert_expected_messages (); nm_setting_wireless_security_add_pairwise (s_wsec, "tkip"); ASSERT_CHANGED (nm_setting_wireless_security_clear_pairwise (s_wsec)); /* Group ciphers */ ASSERT_CHANGED (nm_setting_wireless_security_add_group (s_wsec, "ccmp")); ASSERT_CHANGED (nm_setting_wireless_security_remove_group (s_wsec, 0)); NMTST_EXPECT_LIBNM_CRITICAL (NMTST_G_RETURN_MSG (elt != NULL)); ASSERT_UNCHANGED (nm_setting_wireless_security_remove_group (s_wsec, 1)); g_test_assert_expected_messages (); nm_setting_wireless_security_add_group (s_wsec, "tkip"); ASSERT_CHANGED (nm_setting_wireless_security_clear_groups (s_wsec)); /* WEP key secret flags */ ASSERT_CHANGED (g_assert (nm_setting_set_secret_flags (NM_SETTING (s_wsec), "wep-key0", NM_SETTING_SECRET_FLAG_AGENT_OWNED, NULL))); ASSERT_CHANGED (g_assert (nm_setting_set_secret_flags (NM_SETTING (s_wsec), "wep-key1", NM_SETTING_SECRET_FLAG_AGENT_OWNED, NULL))); ASSERT_CHANGED (g_assert (nm_setting_set_secret_flags (NM_SETTING (s_wsec), "wep-key2", NM_SETTING_SECRET_FLAG_AGENT_OWNED, NULL))); ASSERT_CHANGED (g_assert (nm_setting_set_secret_flags (NM_SETTING (s_wsec), "wep-key3", NM_SETTING_SECRET_FLAG_AGENT_OWNED, NULL))); g_object_unref (connection); } static void test_setting_802_1x_changed_signal (void) { NMConnection *connection; gboolean changed = FALSE; NMSetting8021x *s_8021x; connection = nm_simple_connection_new (); g_signal_connect (connection, NM_CONNECTION_CHANGED, (GCallback) test_connection_changed_cb, &changed); s_8021x = (NMSetting8021x *) nm_setting_802_1x_new (); nm_connection_add_setting (connection, NM_SETTING (s_8021x)); /* EAP methods */ ASSERT_CHANGED (nm_setting_802_1x_add_eap_method (s_8021x, "tls")); ASSERT_CHANGED (nm_setting_802_1x_remove_eap_method (s_8021x, 0)); NMTST_EXPECT_LIBNM_CRITICAL (NMTST_G_RETURN_MSG (elt != NULL)); ASSERT_UNCHANGED (nm_setting_802_1x_remove_eap_method (s_8021x, 1)); g_test_assert_expected_messages (); nm_setting_802_1x_add_eap_method (s_8021x, "ttls"); ASSERT_CHANGED (nm_setting_802_1x_clear_eap_methods (s_8021x)); /* alternate subject matches */ ASSERT_CHANGED (nm_setting_802_1x_add_altsubject_match (s_8021x, "EMAIL:server@example.com")); ASSERT_CHANGED (nm_setting_802_1x_remove_altsubject_match (s_8021x, 0)); NMTST_EXPECT_LIBNM_CRITICAL (NMTST_G_RETURN_MSG (elt != NULL)); ASSERT_UNCHANGED (nm_setting_802_1x_remove_altsubject_match (s_8021x, 1)); g_test_assert_expected_messages (); nm_setting_802_1x_add_altsubject_match (s_8021x, "EMAIL:server@example.com"); ASSERT_CHANGED (nm_setting_802_1x_clear_altsubject_matches (s_8021x)); /* phase2 alternate subject matches */ ASSERT_CHANGED (nm_setting_802_1x_add_phase2_altsubject_match (s_8021x, "EMAIL:server@example.com")); ASSERT_CHANGED (nm_setting_802_1x_remove_phase2_altsubject_match (s_8021x, 0)); NMTST_EXPECT_LIBNM_CRITICAL (NMTST_G_RETURN_MSG (elt != NULL)); ASSERT_UNCHANGED (nm_setting_802_1x_remove_phase2_altsubject_match (s_8021x, 1)); g_test_assert_expected_messages (); nm_setting_802_1x_add_phase2_altsubject_match (s_8021x, "EMAIL:server@example.com"); ASSERT_CHANGED (nm_setting_802_1x_clear_phase2_altsubject_matches (s_8021x)); g_object_unref (connection); } static void test_setting_old_uuid (void) { gs_unref_object NMSetting *setting = NULL; /* NetworkManager-0.9.4.0 generated 40-character UUIDs with no dashes, * like this one. Test that we maintain compatibility. */ const char *uuid = "f43bec2cdd60e5da381ebb1eb1fa39f3cc52660c"; setting = nm_setting_connection_new (); g_object_set (G_OBJECT (setting), NM_SETTING_CONNECTION_ID, "uuidtest", NM_SETTING_CONNECTION_UUID, uuid, NM_SETTING_CONNECTION_TYPE, NM_SETTING_WIRED_SETTING_NAME, NULL); nmtst_assert_setting_verifies (NM_SETTING (setting)); } /*****************************************************************************/ static void test_connection_normalize_uuid (void) { gs_unref_object NMConnection *con = NULL; con = nmtst_create_minimal_connection ("test1", NULL, NM_SETTING_WIRED_SETTING_NAME, NULL); nmtst_assert_connection_verifies_and_normalizable (con); g_object_set (nm_connection_get_setting_connection (con), NM_SETTING_CONNECTION_UUID, NULL, NULL); nmtst_assert_connection_verifies_after_normalization (con, NM_CONNECTION_ERROR, NM_CONNECTION_ERROR_MISSING_PROPERTY); } /*****************************************************************************/ /* * Test normalization of interface-name */ static void test_connection_normalize_virtual_iface_name (void) { NMConnection *con = NULL; NMSettingConnection *s_con; NMSettingVlan *s_vlan; GVariant *connection_dict, *setting_dict, *var; GError *error = NULL; const char *IFACE_NAME = "iface"; const char *IFACE_VIRT = "iface-X"; con = nmtst_create_minimal_connection ("test1", "22001632-bbb4-4616-b277-363dce3dfb5b", NM_SETTING_VLAN_SETTING_NAME, &s_con); nm_connection_add_setting (con, g_object_new (NM_TYPE_SETTING_IP4_CONFIG, NM_SETTING_IP_CONFIG_METHOD, NM_SETTING_IP4_CONFIG_METHOD_AUTO, NULL)); nm_connection_add_setting (con, g_object_new (NM_TYPE_SETTING_IP6_CONFIG, NM_SETTING_IP_CONFIG_METHOD, NM_SETTING_IP4_CONFIG_METHOD_AUTO, NULL)); s_vlan = nm_connection_get_setting_vlan (con); g_object_set (G_OBJECT (s_vlan), NM_SETTING_VLAN_PARENT, "eth0", NULL); g_object_set (G_OBJECT (s_con), NM_SETTING_CONNECTION_INTERFACE_NAME, IFACE_NAME, NULL); g_assert_cmpstr (nm_connection_get_interface_name (con), ==, IFACE_NAME); connection_dict = nm_connection_to_dbus (con, NM_CONNECTION_SERIALIZE_ALL); g_object_unref (con); /* Serialized form should include vlan.interface-name as well. */ setting_dict = g_variant_lookup_value (connection_dict, NM_SETTING_VLAN_SETTING_NAME, NM_VARIANT_TYPE_SETTING); g_assert (setting_dict != NULL); var = g_variant_lookup_value (setting_dict, "interface-name", NULL); g_assert (var != NULL); g_assert (g_variant_is_of_type (var, G_VARIANT_TYPE_STRING)); g_assert_cmpstr (g_variant_get_string (var, NULL), ==, IFACE_NAME); g_variant_unref (setting_dict); g_variant_unref (var); /* If vlan.interface-name is invalid, deserialization will fail. */ NMTST_VARIANT_EDITOR (connection_dict, NMTST_VARIANT_CHANGE_PROPERTY (NM_SETTING_VLAN_SETTING_NAME, "interface-name", "s", ":::this-is-not-a-valid-interface-name:::"); ); con = _connection_new_from_dbus (connection_dict, &error); g_assert_error (error, NM_CONNECTION_ERROR, NM_CONNECTION_ERROR_INVALID_PROPERTY); g_clear_error (&error); /* If vlan.interface-name is valid, but doesn't match, it will be ignored. */ NMTST_VARIANT_EDITOR (connection_dict, NMTST_VARIANT_CHANGE_PROPERTY (NM_SETTING_VLAN_SETTING_NAME, "interface-name", "s", IFACE_VIRT); ); con = _connection_new_from_dbus (connection_dict, &error); g_assert_no_error (error); g_assert_cmpstr (nm_connection_get_interface_name (con), ==, IFACE_NAME); s_con = nm_connection_get_setting_connection (con); g_assert_cmpstr (nm_setting_connection_get_interface_name (s_con), ==, IFACE_NAME); g_object_unref (con); /* But removing connection.interface-name should result in vlan.connection-name * being "promoted". */ NMTST_VARIANT_EDITOR (connection_dict, NMTST_VARIANT_DROP_PROPERTY (NM_SETTING_CONNECTION_SETTING_NAME, NM_SETTING_CONNECTION_INTERFACE_NAME); ); con = _connection_new_from_dbus (connection_dict, &error); g_assert_no_error (error); g_assert_cmpstr (nm_connection_get_interface_name (con), ==, IFACE_VIRT); s_con = nm_connection_get_setting_connection (con); g_assert_cmpstr (nm_setting_connection_get_interface_name (s_con), ==, IFACE_VIRT); g_object_unref (con); g_variant_unref (connection_dict); } static void _test_connection_normalize_type_normalizable_setting (const char *type, void (*prepare_normalizable_fcn) (NMConnection *con)) { NMSettingConnection *s_con; NMSetting *s_base; GType base_type; gs_unref_object NMConnection *con = NULL; gs_free char *id = g_strdup_printf ("%s[%s]", G_STRFUNC, type); base_type = nm_setting_lookup_type (type); g_assert (base_type != G_TYPE_INVALID); g_assert (_nm_setting_type_get_base_type_priority (base_type) != NM_SETTING_PRIORITY_INVALID); con = nmtst_create_minimal_connection (id, NULL, NULL, &s_con); nmtst_assert_connection_unnormalizable (con, NM_CONNECTION_ERROR, NM_CONNECTION_ERROR_MISSING_PROPERTY); g_object_set (s_con, NM_SETTING_CONNECTION_TYPE, type, NULL); if (prepare_normalizable_fcn) prepare_normalizable_fcn (con); g_assert (!nm_connection_get_setting_by_name (con, type)); nmtst_assert_connection_verifies_after_normalization (con, NM_CONNECTION_ERROR, NM_CONNECTION_ERROR_MISSING_SETTING); nmtst_connection_normalize (con); s_base = nm_connection_get_setting_by_name (con, type); g_assert (s_base); g_assert (G_OBJECT_TYPE (s_base) == base_type); } static void _test_connection_normalize_type_unnormalizable_setting (const char *type) { NMSettingConnection *s_con; GType base_type; gs_unref_object NMConnection *con = NULL; gs_free char *id = g_strdup_printf ("%s[%s]", G_STRFUNC, type); base_type = nm_setting_lookup_type (type); g_assert (base_type != G_TYPE_INVALID); g_assert (_nm_setting_type_get_base_type_priority (base_type) != NM_SETTING_PRIORITY_INVALID); con = nmtst_create_minimal_connection (id, NULL, NULL, &s_con); nmtst_assert_connection_unnormalizable (con, NM_CONNECTION_ERROR, NM_CONNECTION_ERROR_MISSING_PROPERTY); g_object_set (s_con, NM_SETTING_CONNECTION_TYPE, type, NULL); nmtst_assert_connection_unnormalizable (con, NM_CONNECTION_ERROR, NM_CONNECTION_ERROR_MISSING_SETTING); } static void _test_connection_normalize_type_normalizable_type (const char *type, NMSetting *(*add_setting_fcn) (NMConnection *con)) { NMSettingConnection *s_con; NMSetting *s_base; GType base_type; gs_unref_object NMConnection *con = NULL; gs_free char *id = g_strdup_printf ("%s[%s]", G_STRFUNC, type); base_type = nm_setting_lookup_type (type); g_assert (base_type != G_TYPE_INVALID); g_assert (_nm_setting_type_get_base_type_priority (base_type) != NM_SETTING_PRIORITY_INVALID); con = nmtst_create_minimal_connection (id, NULL, NULL, &s_con); nmtst_assert_connection_unnormalizable (con, NM_CONNECTION_ERROR, NM_CONNECTION_ERROR_MISSING_PROPERTY); if (add_setting_fcn) s_base = add_setting_fcn (con); else { s_base = NM_SETTING (g_object_new (base_type, NULL)); nm_connection_add_setting (con, s_base); } g_assert (!nm_setting_connection_get_connection_type (s_con)); g_assert (nm_connection_get_setting_by_name (con, type) == s_base); nmtst_assert_connection_verifies_after_normalization (con, NM_CONNECTION_ERROR, NM_CONNECTION_ERROR_MISSING_PROPERTY); nmtst_connection_normalize (con); g_assert_cmpstr (nm_connection_get_connection_type (con), ==, type); g_assert (nm_connection_get_setting_by_name (con, type) == s_base); } static NMSetting * _add_setting_fcn_adsl (NMConnection *con) { NMSetting *setting; setting = g_object_new (NM_TYPE_SETTING_ADSL, NM_SETTING_ADSL_USERNAME, "test-user", NM_SETTING_ADSL_PROTOCOL, NM_SETTING_ADSL_PROTOCOL_PPPOA, NM_SETTING_ADSL_ENCAPSULATION, NM_SETTING_ADSL_ENCAPSULATION_VCMUX, NULL); nm_connection_add_setting (con, setting); return setting; } static NMSetting * _add_setting_fcn_bluetooth (NMConnection *con) { NMSetting *setting; setting = g_object_new (NM_TYPE_SETTING_BLUETOOTH, NM_SETTING_BLUETOOTH_BDADDR, "11:22:33:44:55:66", NM_SETTING_BLUETOOTH_TYPE, NM_SETTING_BLUETOOTH_TYPE_PANU, NULL); nm_connection_add_setting (con, setting); return setting; } static NMSetting * _add_setting_fcn_bond (NMConnection *con) { NMSetting *setting; NMSettingConnection *s_con; setting = g_object_new (NM_TYPE_SETTING_BOND, NULL); nm_connection_add_setting (con, setting); s_con = nm_connection_get_setting_connection (con); g_object_set (s_con, NM_SETTING_CONNECTION_INTERFACE_NAME, "test-bond", NULL); return setting; } static NMSetting * _add_setting_fcn_bridge (NMConnection *con) { NMSetting *setting; NMSettingConnection *s_con; setting = g_object_new (NM_TYPE_SETTING_BRIDGE, NULL); nm_connection_add_setting (con, setting); s_con = nm_connection_get_setting_connection (con); g_object_set (s_con, NM_SETTING_CONNECTION_INTERFACE_NAME, "test-bridge", NULL); return setting; } static NMSetting * _add_setting_fcn_cdma (NMConnection *con) { NMSetting *setting; setting = g_object_new (NM_TYPE_SETTING_CDMA, NM_SETTING_CDMA_NUMBER, "test-number", NULL); nm_connection_add_setting (con, setting); return setting; } static NMSetting * _add_setting_fcn_infiniband (NMConnection *con) { NMSetting *setting; setting = g_object_new (NM_TYPE_SETTING_INFINIBAND, NM_SETTING_INFINIBAND_TRANSPORT_MODE, "connected", NULL); nm_connection_add_setting (con, setting); return setting; } static NMSetting * _add_setting_fcn_olpc_mesh (NMConnection *con) { NMSetting *setting; const char *ssid_data = "ssid-test"; GBytes *ssid; ssid = g_bytes_new (ssid_data, strlen (ssid_data)); setting = g_object_new (NM_TYPE_SETTING_OLPC_MESH, NM_SETTING_OLPC_MESH_SSID, ssid, NM_SETTING_OLPC_MESH_CHANNEL, 1, NULL); g_bytes_unref (ssid); nm_connection_add_setting (con, setting); return setting; } static NMSetting * _add_setting_fcn_team (NMConnection *con) { NMSetting *setting; NMSettingConnection *s_con; setting = g_object_new (NM_TYPE_SETTING_TEAM, NULL); nm_connection_add_setting (con, setting); s_con = nm_connection_get_setting_connection (con); g_object_set (s_con, NM_SETTING_CONNECTION_INTERFACE_NAME, "test-team", NULL); return setting; } static NMSetting * _add_setting_fcn_vlan (NMConnection *con) { NMSetting *setting; setting = g_object_new (NM_TYPE_SETTING_VLAN, NM_SETTING_VLAN_PARENT, "test-parent", NULL); nm_connection_add_setting (con, setting); return setting; } static NMSetting * _add_setting_fcn_vpn (NMConnection *con) { NMSetting *setting; setting = g_object_new (NM_TYPE_SETTING_VPN, NM_SETTING_VPN_SERVICE_TYPE, "test-vpn-service-type", NULL); nm_connection_add_setting (con, setting); return setting; } static NMSetting * _add_setting_fcn_wimax (NMConnection *con) { NMSetting *setting; setting = g_object_new (NM_TYPE_SETTING_WIMAX, NM_SETTING_WIMAX_NETWORK_NAME, "test-network", NULL); nm_connection_add_setting (con, setting); return setting; } static NMSetting * _add_setting_fcn_wireless (NMConnection *con) { NMSetting *setting; const char *ssid_data = "ssid-test"; GBytes *ssid; ssid = g_bytes_new (ssid_data, strlen (ssid_data)); setting = g_object_new (NM_TYPE_SETTING_WIRELESS, NM_SETTING_WIRELESS_SSID, ssid, NULL); g_bytes_unref (ssid); nm_connection_add_setting (con, setting); return setting; } static void _prepare_normalizable_fcn_vlan (NMConnection *con) { nm_connection_add_setting (con, g_object_new (NM_TYPE_SETTING_WIRED, NM_SETTING_WIRED_MAC_ADDRESS, "11:22:33:44:55:66", NULL)); } static void test_connection_normalize_type (void) { guint i; struct { const char *type; gboolean normalizable; NMSetting *(*add_setting_fcn) (NMConnection *con); void (*prepare_normalizable_fcn) (NMConnection *con); } types[] = { { NM_SETTING_GENERIC_SETTING_NAME, TRUE }, { NM_SETTING_GSM_SETTING_NAME, TRUE }, { NM_SETTING_WIRED_SETTING_NAME, TRUE }, { NM_SETTING_VLAN_SETTING_NAME, TRUE, _add_setting_fcn_vlan, _prepare_normalizable_fcn_vlan }, { NM_SETTING_ADSL_SETTING_NAME, FALSE, _add_setting_fcn_adsl }, { NM_SETTING_BLUETOOTH_SETTING_NAME, FALSE, _add_setting_fcn_bluetooth }, { NM_SETTING_BOND_SETTING_NAME, FALSE, _add_setting_fcn_bond }, { NM_SETTING_BRIDGE_SETTING_NAME, FALSE, _add_setting_fcn_bridge }, { NM_SETTING_CDMA_SETTING_NAME, FALSE, _add_setting_fcn_cdma }, { NM_SETTING_INFINIBAND_SETTING_NAME, FALSE, _add_setting_fcn_infiniband }, { NM_SETTING_OLPC_MESH_SETTING_NAME, FALSE, _add_setting_fcn_olpc_mesh }, { NM_SETTING_TEAM_SETTING_NAME, FALSE, _add_setting_fcn_team }, { NM_SETTING_VLAN_SETTING_NAME, FALSE, _add_setting_fcn_vlan }, { NM_SETTING_VPN_SETTING_NAME, FALSE, _add_setting_fcn_vpn }, { NM_SETTING_WIMAX_SETTING_NAME, FALSE, _add_setting_fcn_wimax }, { NM_SETTING_WIRELESS_SETTING_NAME, FALSE, _add_setting_fcn_wireless }, { 0 }, }; for (i = 0; types[i].type; i++) { const char *type = types[i].type; if (types[i].normalizable) _test_connection_normalize_type_normalizable_setting (type, types[i].prepare_normalizable_fcn); else _test_connection_normalize_type_unnormalizable_setting (type); _test_connection_normalize_type_normalizable_type (type, types[i].add_setting_fcn); } } static void test_connection_normalize_slave_type_1 (void) { gs_unref_object NMConnection *con = NULL; NMSettingConnection *s_con; con = nmtst_create_minimal_connection ("test_connection_normalize_slave_type_1", "cc4cd5df-45dc-483e-b291-6b76c2338ecb", NM_SETTING_WIRED_SETTING_NAME, &s_con); g_object_set (s_con, NM_SETTING_CONNECTION_MASTER, "master0", NM_SETTING_CONNECTION_SLAVE_TYPE, "invalid-type", NULL); nmtst_assert_connection_unnormalizable (con, NM_CONNECTION_ERROR, NM_CONNECTION_ERROR_INVALID_PROPERTY); g_assert (!nm_connection_get_setting_by_name (con, NM_SETTING_BRIDGE_PORT_SETTING_NAME)); g_object_set (s_con, NM_SETTING_CONNECTION_SLAVE_TYPE, "bridge", NULL); g_assert (!nm_connection_get_setting_by_name (con, NM_SETTING_BRIDGE_PORT_SETTING_NAME)); nmtst_assert_connection_verifies_after_normalization (con, NM_CONNECTION_ERROR, NM_CONNECTION_ERROR_MISSING_SETTING); nmtst_connection_normalize (con); g_assert (nm_connection_get_setting_by_name (con, NM_SETTING_BRIDGE_PORT_SETTING_NAME)); g_assert_cmpstr (nm_setting_connection_get_slave_type (s_con), ==, NM_SETTING_BRIDGE_SETTING_NAME); } static void test_connection_normalize_slave_type_2 (void) { gs_unref_object NMConnection *con = NULL; NMSettingConnection *s_con; con = nmtst_create_minimal_connection ("test_connection_normalize_slave_type_2", "40bea008-ca72-439a-946b-e65f827656f9", NM_SETTING_WIRED_SETTING_NAME, &s_con); g_object_set (s_con, NM_SETTING_CONNECTION_MASTER, "master0", NM_SETTING_CONNECTION_SLAVE_TYPE, "invalid-type", NULL); nmtst_assert_connection_unnormalizable (con, NM_CONNECTION_ERROR, NM_CONNECTION_ERROR_INVALID_PROPERTY); g_assert (!nm_connection_get_setting_by_name (con, NM_SETTING_BRIDGE_PORT_SETTING_NAME)); g_object_set (s_con, NM_SETTING_CONNECTION_SLAVE_TYPE, NULL, NULL); nm_connection_add_setting (con, nm_setting_bridge_port_new ()); g_assert (nm_connection_get_setting_by_name (con, NM_SETTING_BRIDGE_PORT_SETTING_NAME)); g_assert_cmpstr (nm_setting_connection_get_slave_type (s_con), ==, NULL); nmtst_assert_connection_verifies_after_normalization (con, NM_CONNECTION_ERROR, NM_CONNECTION_ERROR_MISSING_PROPERTY); nmtst_connection_normalize (con); g_assert (nm_connection_get_setting_by_name (con, NM_SETTING_BRIDGE_PORT_SETTING_NAME)); g_assert_cmpstr (nm_setting_connection_get_slave_type (s_con), ==, NM_SETTING_BRIDGE_SETTING_NAME); } static void test_connection_normalize_infiniband_mtu (void) { gs_unref_object NMConnection *con = NULL; NMSettingInfiniband *s_infini; guint mtu_regular = nmtst_rand_select (2044, 2045, 65520); con = nmtst_create_minimal_connection ("test_connection_normalize_infiniband_mtu", NULL, NM_SETTING_INFINIBAND_SETTING_NAME, NULL); s_infini = nm_connection_get_setting_infiniband (con); g_object_set (s_infini, NM_SETTING_INFINIBAND_TRANSPORT_MODE, "connected", NULL); nmtst_assert_connection_verifies_and_normalizable (con); g_object_set (s_infini, NM_SETTING_INFINIBAND_TRANSPORT_MODE, "datagram", NM_SETTING_INFINIBAND_MTU, (guint) mtu_regular, NULL); nmtst_assert_connection_verifies_and_normalizable (con); nmtst_connection_normalize (con); g_assert_cmpint (mtu_regular, ==, nm_setting_infiniband_get_mtu (s_infini)); g_object_set (s_infini, NM_SETTING_INFINIBAND_TRANSPORT_MODE, "datagram", NM_SETTING_INFINIBAND_MTU, (guint) 65521, NULL); nmtst_assert_connection_verifies_after_normalization (con, NM_CONNECTION_ERROR, NM_CONNECTION_ERROR_INVALID_PROPERTY); nmtst_connection_normalize (con); g_assert_cmpint (65520, ==, nm_setting_infiniband_get_mtu (s_infini)); g_object_set (s_infini, NM_SETTING_INFINIBAND_TRANSPORT_MODE, "connected", NM_SETTING_INFINIBAND_MTU, (guint) mtu_regular, NULL); nmtst_assert_connection_verifies_without_normalization (con); g_assert_cmpint (mtu_regular, ==, nm_setting_infiniband_get_mtu (s_infini)); g_object_set (s_infini, NM_SETTING_INFINIBAND_TRANSPORT_MODE, "connected", NM_SETTING_INFINIBAND_MTU, (guint) 65521, NULL); nmtst_assert_connection_verifies_after_normalization (con, NM_CONNECTION_ERROR, NM_CONNECTION_ERROR_INVALID_PROPERTY); nmtst_connection_normalize (con); g_assert_cmpint (65520, ==, nm_setting_infiniband_get_mtu (s_infini)); } static void test_connection_normalize_gateway_never_default (void) { gs_unref_object NMConnection *con = NULL; NMSettingIPConfig *s_ip4, *s_ip6; NMIPAddress *addr; gs_free_error GError *error = NULL; con = nmtst_create_minimal_connection ("test1", NULL, NM_SETTING_WIRED_SETTING_NAME, NULL); nmtst_assert_connection_verifies_and_normalizable (con); s_ip4 = (NMSettingIPConfig *) nm_setting_ip4_config_new (); g_object_set (G_OBJECT (s_ip4), NM_SETTING_IP_CONFIG_METHOD, NM_SETTING_IP4_CONFIG_METHOD_MANUAL, NULL); addr = nm_ip_address_new (AF_INET, "1.1.1.1", 24, &error); g_assert_no_error (error); nm_setting_ip_config_add_address (s_ip4, addr); nm_ip_address_unref (addr); g_object_set (s_ip4, NM_SETTING_IP_CONFIG_GATEWAY, "1.1.1.254", NM_SETTING_IP_CONFIG_NEVER_DEFAULT, FALSE, NULL); s_ip6 = (NMSettingIPConfig *) nm_setting_ip6_config_new (); g_object_set (s_ip6, NM_SETTING_IP_CONFIG_METHOD, NM_SETTING_IP6_CONFIG_METHOD_AUTO, NULL); nm_connection_add_setting (con, (NMSetting *) s_ip4); nm_connection_add_setting (con, (NMSetting *) s_ip6); nm_connection_add_setting (con, nm_setting_proxy_new ()); nmtst_assert_connection_verifies_without_normalization (con); g_assert_cmpstr ("1.1.1.254", ==, nm_setting_ip_config_get_gateway (s_ip4)); /* Now set never-default to TRUE and check that the gateway is * removed during normalization * */ g_object_set (s_ip4, NM_SETTING_IP_CONFIG_NEVER_DEFAULT, TRUE, NULL); nmtst_assert_connection_verifies_after_normalization (con, NM_CONNECTION_ERROR, NM_CONNECTION_ERROR_INVALID_PROPERTY); nmtst_connection_normalize (con); g_assert_cmpstr (NULL, ==, nm_setting_ip_config_get_gateway (s_ip4)); } static void test_connection_normalize_may_fail (void) { gs_unref_object NMConnection *con = NULL; NMSettingIPConfig *s_ip4, *s_ip6; con = nmtst_create_minimal_connection ("test2", NULL, NM_SETTING_WIRED_SETTING_NAME, NULL); nmtst_assert_connection_verifies_and_normalizable (con); s_ip4 = (NMSettingIPConfig *) nm_setting_ip4_config_new (); g_object_set (G_OBJECT (s_ip4), NM_SETTING_IP_CONFIG_METHOD, NM_SETTING_IP4_CONFIG_METHOD_AUTO, NM_SETTING_IP_CONFIG_MAY_FAIL, FALSE, NULL); s_ip6 = (NMSettingIPConfig *) nm_setting_ip6_config_new (); g_object_set (s_ip6, NM_SETTING_IP_CONFIG_METHOD, NM_SETTING_IP6_CONFIG_METHOD_AUTO, NM_SETTING_IP_CONFIG_MAY_FAIL, FALSE, NULL); nm_connection_add_setting (con, (NMSetting *) s_ip4); nm_connection_add_setting (con, (NMSetting *) s_ip6); nmtst_assert_connection_verifies_and_normalizable (con); /* Now set method=disabled/ignore and check that may-fail becomes TRUE * after normalization * */ g_object_set (s_ip4, NM_SETTING_IP_CONFIG_METHOD, NM_SETTING_IP4_CONFIG_METHOD_DISABLED, NULL); g_object_set (s_ip6, NM_SETTING_IP_CONFIG_METHOD, NM_SETTING_IP6_CONFIG_METHOD_IGNORE, NULL); nmtst_assert_connection_verifies (con); nmtst_connection_normalize (con); g_assert_cmpint (nm_setting_ip_config_get_may_fail (s_ip4), ==, TRUE); g_assert_cmpint (nm_setting_ip_config_get_may_fail (s_ip6), ==, TRUE); } static void test_connection_normalize_shared_addresses (void) { gs_unref_object NMConnection *con = NULL; NMSettingIPConfig *s_ip4, *s_ip6; NMIPAddress *addr; gs_free_error GError *error = NULL; con = nmtst_create_minimal_connection ("test1", NULL, NM_SETTING_WIRED_SETTING_NAME, NULL); nmtst_assert_connection_verifies_and_normalizable (con); s_ip4 = (NMSettingIPConfig *) nm_setting_ip4_config_new (); g_object_set (G_OBJECT (s_ip4), NM_SETTING_IP_CONFIG_METHOD, NM_SETTING_IP4_CONFIG_METHOD_SHARED, NULL); addr = nm_ip_address_new (AF_INET, "1.1.1.1", 24, &error); g_assert_no_error (error); nm_setting_ip_config_add_address (s_ip4, addr); nm_ip_address_unref (addr); s_ip6 = (NMSettingIPConfig *) nm_setting_ip6_config_new (); g_object_set (s_ip6, NM_SETTING_IP_CONFIG_METHOD, NM_SETTING_IP6_CONFIG_METHOD_AUTO, NULL); nm_connection_add_setting (con, (NMSetting *) s_ip4); nm_connection_add_setting (con, (NMSetting *) s_ip6); nmtst_assert_connection_verifies_and_normalizable (con); /* Now we add other addresses and check that they are * removed during normalization * */ addr = nm_ip_address_new (AF_INET, "2.2.2.2", 24, &error); g_assert_no_error (error); nm_setting_ip_config_add_address (s_ip4, addr); nm_ip_address_unref (addr); addr = nm_ip_address_new (AF_INET, "3.3.3.3", 24, &error); g_assert_no_error (error); nm_setting_ip_config_add_address (s_ip4, addr); nm_ip_address_unref (addr); nmtst_assert_connection_verifies_after_normalization (con, NM_CONNECTION_ERROR, NM_CONNECTION_ERROR_INVALID_PROPERTY); nmtst_connection_normalize (con); g_assert_cmpuint (nm_setting_ip_config_get_num_addresses (s_ip4), ==, 1); addr = nm_setting_ip_config_get_address (s_ip4, 0); g_assert_cmpstr (nm_ip_address_get_address (addr), ==, "1.1.1.1"); } static void test_connection_normalize_ovs_interface_type_system (gconstpointer test_data) { const guint TEST_CASE = GPOINTER_TO_UINT (test_data); gs_unref_object NMConnection *con = NULL; NMSettingConnection *s_con; NMSettingOvsInterface *s_ovs_if; con = nmtst_create_minimal_connection ("test_connection_normalize_ovs_interface_type_system", NULL, NM_SETTING_WIRED_SETTING_NAME, &s_con); switch (TEST_CASE) { case 1: g_object_set (s_con, NM_SETTING_CONNECTION_MASTER, "master0", NM_SETTING_CONNECTION_SLAVE_TYPE, NM_SETTING_OVS_PORT_SETTING_NAME, NULL); nmtst_assert_connection_verifies_after_normalization (con, NM_CONNECTION_ERROR, NM_CONNECTION_ERROR_MISSING_SETTING); nmtst_connection_normalize (con); nmtst_assert_connection_has_settings (con, NM_SETTING_CONNECTION_SETTING_NAME, NM_SETTING_WIRED_SETTING_NAME, NM_SETTING_OVS_INTERFACE_SETTING_NAME); s_ovs_if = nm_connection_get_setting_ovs_interface (con); g_assert (s_ovs_if); g_assert_cmpstr (nm_setting_ovs_interface_get_interface_type (s_ovs_if), ==, "system"); break; case 2: g_object_set (s_con, NM_SETTING_CONNECTION_MASTER, "master0", NM_SETTING_CONNECTION_SLAVE_TYPE, NM_SETTING_OVS_PORT_SETTING_NAME, NULL); s_ovs_if = NM_SETTING_OVS_INTERFACE (nm_setting_ovs_interface_new ()); nm_connection_add_setting (con, NM_SETTING (s_ovs_if)); nmtst_assert_connection_verifies_after_normalization (con, NM_CONNECTION_ERROR, NM_CONNECTION_ERROR_MISSING_PROPERTY); nmtst_connection_normalize (con); nmtst_assert_connection_has_settings (con, NM_SETTING_CONNECTION_SETTING_NAME, NM_SETTING_WIRED_SETTING_NAME, NM_SETTING_OVS_INTERFACE_SETTING_NAME); g_assert (s_ovs_if == nm_connection_get_setting_ovs_interface (con)); g_assert_cmpstr (nm_setting_ovs_interface_get_interface_type (s_ovs_if), ==, "system"); break; case 3: g_object_set (s_con, NM_SETTING_CONNECTION_MASTER, "master0", NM_SETTING_CONNECTION_SLAVE_TYPE, NM_SETTING_OVS_PORT_SETTING_NAME, NULL); s_ovs_if = NM_SETTING_OVS_INTERFACE (nm_setting_ovs_interface_new ()); nm_connection_add_setting (con, NM_SETTING (s_ovs_if)); g_object_set (s_ovs_if, NM_SETTING_OVS_INTERFACE_TYPE, "system", NULL); nmtst_assert_connection_verifies_without_normalization (con); nmtst_assert_connection_has_settings (con, NM_SETTING_CONNECTION_SETTING_NAME, NM_SETTING_WIRED_SETTING_NAME, NM_SETTING_OVS_INTERFACE_SETTING_NAME); break; case 4: g_object_set (s_con, NM_SETTING_CONNECTION_MASTER, "master0", NM_SETTING_CONNECTION_SLAVE_TYPE, NM_SETTING_OVS_PORT_SETTING_NAME, NULL); s_ovs_if = NM_SETTING_OVS_INTERFACE (nm_setting_ovs_interface_new ()); nm_connection_add_setting (con, NM_SETTING (s_ovs_if)); g_object_set (s_ovs_if, NM_SETTING_OVS_INTERFACE_TYPE, "internal", NULL); /* the setting doesn't verify, because the interface-type must be "system". */ nmtst_assert_connection_unnormalizable (con, NM_CONNECTION_ERROR, NM_CONNECTION_ERROR_INVALID_PROPERTY); break; case 5: g_object_set (s_con, NM_SETTING_CONNECTION_MASTER, "master0", NULL); s_ovs_if = NM_SETTING_OVS_INTERFACE (nm_setting_ovs_interface_new ()); nm_connection_add_setting (con, NM_SETTING (s_ovs_if)); g_object_set (s_ovs_if, NM_SETTING_OVS_INTERFACE_TYPE, "system", NULL); nmtst_assert_connection_verifies_after_normalization (con, NM_CONNECTION_ERROR, NM_CONNECTION_ERROR_MISSING_PROPERTY); nmtst_connection_normalize (con); nmtst_assert_connection_has_settings (con, NM_SETTING_CONNECTION_SETTING_NAME, NM_SETTING_WIRED_SETTING_NAME, NM_SETTING_OVS_INTERFACE_SETTING_NAME); g_assert (s_con == nm_connection_get_setting_connection (con)); g_assert_cmpstr (nm_setting_connection_get_slave_type (s_con), ==, NM_SETTING_OVS_PORT_SETTING_NAME); break; case 6: g_object_set (s_con, NM_SETTING_CONNECTION_MASTER, "master0", NM_SETTING_CONNECTION_SLAVE_TYPE, NM_SETTING_BRIDGE_SETTING_NAME, NULL); s_ovs_if = NM_SETTING_OVS_INTERFACE (nm_setting_ovs_interface_new ()); nm_connection_add_setting (con, NM_SETTING (s_ovs_if)); g_object_set (s_ovs_if, NM_SETTING_OVS_INTERFACE_TYPE, "system", NULL); nmtst_assert_connection_unnormalizable (con, NM_CONNECTION_ERROR, NM_CONNECTION_ERROR_INVALID_PROPERTY); break; case 7: g_object_set (s_con, NM_SETTING_CONNECTION_MASTER, "master0", NM_SETTING_CONNECTION_SLAVE_TYPE, NM_SETTING_BRIDGE_SETTING_NAME, NULL); nm_connection_add_setting (con, nm_setting_bridge_port_new ()); s_ovs_if = NM_SETTING_OVS_INTERFACE (nm_setting_ovs_interface_new ()); nm_connection_add_setting (con, NM_SETTING (s_ovs_if)); g_object_set (s_ovs_if, NM_SETTING_OVS_INTERFACE_TYPE, "system", NULL); nmtst_assert_connection_unnormalizable (con, NM_CONNECTION_ERROR, NM_CONNECTION_ERROR_INVALID_PROPERTY); break; default: g_assert_not_reached (); break; } } static void test_connection_normalize_ovs_interface_type_ovs_interface (gconstpointer test_data) { const guint TEST_CASE = GPOINTER_TO_UINT (test_data); gs_unref_object NMConnection *con = NULL; NMSettingConnection *s_con; NMSettingOvsInterface *s_ovs_if; NMSettingOvsPatch *s_ovs_patch; NMSettingIP4Config *s_ip4; NMSettingIP6Config *s_ip6; con = nmtst_create_minimal_connection ("test_connection_normalize_ovs_interface_type_ovs_interface", NULL, NM_SETTING_OVS_INTERFACE_SETTING_NAME, &s_con); s_ovs_if = nm_connection_get_setting_ovs_interface (con); g_assert (s_ovs_if); switch (TEST_CASE) { case 1: nmtst_assert_connection_unnormalizable (con, NM_CONNECTION_ERROR, NM_CONNECTION_ERROR_INVALID_PROPERTY); break; case 2: g_object_set (s_con, NM_SETTING_CONNECTION_MASTER, "master0", NULL); nmtst_assert_connection_verifies_after_normalization (con, NM_CONNECTION_ERROR, NM_CONNECTION_ERROR_MISSING_PROPERTY); nmtst_connection_normalize (con); nmtst_assert_connection_has_settings (con, NM_SETTING_CONNECTION_SETTING_NAME, NM_SETTING_IP4_CONFIG_SETTING_NAME, NM_SETTING_IP6_CONFIG_SETTING_NAME, NM_SETTING_PROXY_SETTING_NAME, NM_SETTING_OVS_INTERFACE_SETTING_NAME); g_assert (s_con == nm_connection_get_setting_connection (con)); g_assert (s_ovs_if == nm_connection_get_setting_ovs_interface (con)); g_assert_cmpstr (nm_setting_connection_get_slave_type (s_con), ==, NM_SETTING_OVS_PORT_SETTING_NAME); g_assert_cmpstr (nm_setting_ovs_interface_get_interface_type (s_ovs_if), ==, "internal"); break; case 3: g_object_set (s_con, NM_SETTING_CONNECTION_MASTER, "master0", NM_SETTING_CONNECTION_SLAVE_TYPE, NM_SETTING_OVS_PORT_SETTING_NAME, NULL); nmtst_assert_connection_verifies_after_normalization (con, NM_CONNECTION_ERROR, NM_CONNECTION_ERROR_MISSING_PROPERTY); nmtst_connection_normalize (con); nmtst_assert_connection_has_settings (con, NM_SETTING_CONNECTION_SETTING_NAME, NM_SETTING_IP4_CONFIG_SETTING_NAME, NM_SETTING_IP6_CONFIG_SETTING_NAME, NM_SETTING_PROXY_SETTING_NAME, NM_SETTING_OVS_INTERFACE_SETTING_NAME); g_assert (s_con == nm_connection_get_setting_connection (con)); g_assert (s_ovs_if == nm_connection_get_setting_ovs_interface (con)); g_assert_cmpstr (nm_setting_connection_get_slave_type (s_con), ==, NM_SETTING_OVS_PORT_SETTING_NAME); g_assert_cmpstr (nm_setting_ovs_interface_get_interface_type (s_ovs_if), ==, "internal"); break; case 4: g_object_set (s_con, NM_SETTING_CONNECTION_MASTER, "master0", NULL); g_object_set (s_ovs_if, NM_SETTING_OVS_INTERFACE_TYPE, "internal", NULL); nmtst_assert_connection_verifies_after_normalization (con, NM_CONNECTION_ERROR, NM_CONNECTION_ERROR_MISSING_PROPERTY); nmtst_connection_normalize (con); nmtst_assert_connection_has_settings (con, NM_SETTING_CONNECTION_SETTING_NAME, NM_SETTING_IP4_CONFIG_SETTING_NAME, NM_SETTING_IP6_CONFIG_SETTING_NAME, NM_SETTING_PROXY_SETTING_NAME, NM_SETTING_OVS_INTERFACE_SETTING_NAME); g_assert (s_con == nm_connection_get_setting_connection (con)); g_assert (s_ovs_if == nm_connection_get_setting_ovs_interface (con)); g_assert_cmpstr (nm_setting_connection_get_slave_type (s_con), ==, NM_SETTING_OVS_PORT_SETTING_NAME); g_assert_cmpstr (nm_setting_ovs_interface_get_interface_type (s_ovs_if), ==, "internal"); break; case 5: g_object_set (s_con, NM_SETTING_CONNECTION_MASTER, "master0", NM_SETTING_CONNECTION_SLAVE_TYPE, NM_SETTING_OVS_PORT_SETTING_NAME, NULL); g_object_set (s_ovs_if, NM_SETTING_OVS_INTERFACE_TYPE, "internal", NULL); nm_connection_add_setting (con, nm_setting_ip4_config_new ()); nm_connection_add_setting (con, nm_setting_ip6_config_new ()); nm_connection_add_setting (con, nm_setting_proxy_new ()); s_ip4 = NM_SETTING_IP4_CONFIG (nm_connection_get_setting_ip4_config (con)); s_ip6 = NM_SETTING_IP6_CONFIG (nm_connection_get_setting_ip6_config (con)); g_object_set (s_ip4, NM_SETTING_IP_CONFIG_METHOD, "auto", NULL); g_object_set (s_ip6, NM_SETTING_IP_CONFIG_METHOD, "auto", NULL); nmtst_assert_connection_verifies_without_normalization (con); nmtst_assert_connection_has_settings (con, NM_SETTING_CONNECTION_SETTING_NAME, NM_SETTING_IP4_CONFIG_SETTING_NAME, NM_SETTING_IP6_CONFIG_SETTING_NAME, NM_SETTING_PROXY_SETTING_NAME, NM_SETTING_OVS_INTERFACE_SETTING_NAME); break; case 6: g_object_set (s_con, NM_SETTING_CONNECTION_MASTER, "master0", NM_SETTING_CONNECTION_SLAVE_TYPE, NM_SETTING_OVS_PORT_SETTING_NAME, NULL); g_object_set (s_ovs_if, NM_SETTING_OVS_INTERFACE_TYPE, "internal", NULL); nmtst_assert_connection_verifies_and_normalizable (con); nmtst_connection_normalize (con); nmtst_assert_connection_has_settings (con, NM_SETTING_CONNECTION_SETTING_NAME, NM_SETTING_IP4_CONFIG_SETTING_NAME, NM_SETTING_IP6_CONFIG_SETTING_NAME, NM_SETTING_PROXY_SETTING_NAME, NM_SETTING_OVS_INTERFACE_SETTING_NAME); g_assert (s_con == nm_connection_get_setting_connection (con)); g_assert (s_ovs_if == nm_connection_get_setting_ovs_interface (con)); g_assert_cmpstr (nm_setting_connection_get_slave_type (s_con), ==, NM_SETTING_OVS_PORT_SETTING_NAME); g_assert_cmpstr (nm_setting_ovs_interface_get_interface_type (s_ovs_if), ==, "internal"); break; case 7: g_object_set (s_con, NM_SETTING_CONNECTION_MASTER, "master0", NM_SETTING_CONNECTION_SLAVE_TYPE, NM_SETTING_OVS_PORT_SETTING_NAME, NULL); g_object_set (s_ovs_if, NM_SETTING_OVS_INTERFACE_TYPE, "system", NULL); nmtst_assert_connection_unnormalizable (con, NM_CONNECTION_ERROR, NM_CONNECTION_ERROR_INVALID_PROPERTY); break; case 8: g_object_set (s_con, NM_SETTING_CONNECTION_MASTER, "master0", NM_SETTING_CONNECTION_SLAVE_TYPE, NM_SETTING_OVS_PORT_SETTING_NAME, NULL); g_object_set (s_ovs_if, NM_SETTING_OVS_INTERFACE_TYPE, "bogus", NULL); nmtst_assert_connection_unnormalizable (con, NM_CONNECTION_ERROR, NM_CONNECTION_ERROR_INVALID_PROPERTY); break; case 9: g_object_set (s_con, NM_SETTING_CONNECTION_MASTER, "master0", NM_SETTING_CONNECTION_SLAVE_TYPE, NM_SETTING_OVS_PORT_SETTING_NAME, NULL); g_object_set (s_ovs_if, NM_SETTING_OVS_INTERFACE_TYPE, "patch", NULL); nmtst_assert_connection_unnormalizable (con, NM_CONNECTION_ERROR, NM_CONNECTION_ERROR_MISSING_SETTING); break; case 10: g_object_set (s_con, NM_SETTING_CONNECTION_MASTER, "master0", NM_SETTING_CONNECTION_SLAVE_TYPE, NM_SETTING_OVS_PORT_SETTING_NAME, NULL); g_object_set (s_ovs_if, NM_SETTING_OVS_INTERFACE_TYPE, "patch", NULL); nm_connection_add_setting (con, nm_setting_ovs_patch_new ()); nmtst_assert_connection_unnormalizable (con, NM_CONNECTION_ERROR, NM_CONNECTION_ERROR_MISSING_PROPERTY); break; case 11: g_object_set (s_con, NM_SETTING_CONNECTION_MASTER, "master0", NM_SETTING_CONNECTION_SLAVE_TYPE, NM_SETTING_OVS_PORT_SETTING_NAME, NM_SETTING_CONNECTION_INTERFACE_NAME, "adsf", NULL); g_object_set (s_ovs_if, NM_SETTING_OVS_INTERFACE_TYPE, "patch", NULL); nm_connection_add_setting (con, nm_setting_ovs_patch_new ()); nmtst_assert_connection_unnormalizable (con, NM_CONNECTION_ERROR, NM_CONNECTION_ERROR_MISSING_PROPERTY); break; case 12: g_object_set (s_con, NM_SETTING_CONNECTION_MASTER, "master0", NM_SETTING_CONNECTION_SLAVE_TYPE, NM_SETTING_OVS_PORT_SETTING_NAME, NM_SETTING_CONNECTION_INTERFACE_NAME, "adsf", NULL); g_object_set (s_ovs_if, NM_SETTING_OVS_INTERFACE_TYPE, "patch", NULL); s_ovs_patch = NM_SETTING_OVS_PATCH (nm_setting_ovs_patch_new ()); nm_connection_add_setting (con, NM_SETTING (s_ovs_patch)); g_object_set (s_ovs_patch, NM_SETTING_OVS_PATCH_PEER, "1.2.3.4", NULL); nmtst_assert_connection_verifies_and_normalizable (con); nmtst_connection_normalize (con); nmtst_assert_connection_has_settings (con, NM_SETTING_CONNECTION_SETTING_NAME, NM_SETTING_IP4_CONFIG_SETTING_NAME, NM_SETTING_IP6_CONFIG_SETTING_NAME, NM_SETTING_PROXY_SETTING_NAME, NM_SETTING_OVS_INTERFACE_SETTING_NAME, NM_SETTING_OVS_PATCH_SETTING_NAME); g_assert (s_con == nm_connection_get_setting_connection (con)); g_assert (s_ovs_if == nm_connection_get_setting_ovs_interface (con)); g_assert_cmpstr (nm_setting_connection_get_slave_type (s_con), ==, NM_SETTING_OVS_PORT_SETTING_NAME); g_assert_cmpstr (nm_setting_ovs_interface_get_interface_type (s_ovs_if), ==, "patch"); break; default: g_assert_not_reached (); } } static void test_setting_ip4_gateway (void) { NMConnection *conn; NMSettingIPConfig *s_ip4; NMIPAddress *addr; GVariant *conn_dict, *ip4_dict, *value; GVariantIter iter; GVariant *addr_var; guint32 addr_vals_0[] = { htonl (0xc0a8010a), 0x00000018, htonl (0x00000000) }; guint32 addr_vals_1[] = { htonl (0xc0a8010b), 0x00000018, htonl (0xc0a80101) }; GVariantBuilder addrs_builder; GError *error = NULL; nmtst_assert_ip4_address (addr_vals_0[0], "192.168.1.10"); /* When serializing on the daemon side, ipv4.gateway is copied to the first * entry of ipv4.addresses */ conn = nmtst_create_minimal_connection ("test_setting_ip4_gateway", NULL, NM_SETTING_WIRED_SETTING_NAME, NULL); s_ip4 = (NMSettingIPConfig *) nm_setting_ip4_config_new (); g_object_set (s_ip4, NM_SETTING_IP_CONFIG_METHOD, NM_SETTING_IP4_CONFIG_METHOD_MANUAL, NM_SETTING_IP_CONFIG_GATEWAY, "192.168.1.1", NULL); nm_connection_add_setting (conn, NM_SETTING (s_ip4)); addr = nm_ip_address_new (AF_INET, "192.168.1.10", 24, &error); g_assert_no_error (error); nm_setting_ip_config_add_address (s_ip4, addr); nm_ip_address_unref (addr); _nm_utils_is_manager_process = TRUE; conn_dict = nm_connection_to_dbus (conn, NM_CONNECTION_SERIALIZE_ALL); _nm_utils_is_manager_process = FALSE; g_object_unref (conn); ip4_dict = g_variant_lookup_value (conn_dict, NM_SETTING_IP4_CONFIG_SETTING_NAME, NM_VARIANT_TYPE_SETTING); g_assert (ip4_dict != NULL); value = g_variant_lookup_value (ip4_dict, NM_SETTING_IP_CONFIG_GATEWAY, G_VARIANT_TYPE_STRING); g_assert (value != NULL); g_assert_cmpstr (g_variant_get_string (value, NULL), ==, "192.168.1.1"); g_variant_unref (value); value = g_variant_lookup_value (ip4_dict, NM_SETTING_IP_CONFIG_ADDRESSES, G_VARIANT_TYPE ("aau")); g_assert (value != NULL); g_variant_iter_init (&iter, value); while (g_variant_iter_next (&iter, "@au", &addr_var)) { const guint32 *addr_array; gsize length; addr_array = g_variant_get_fixed_array (addr_var, &length, sizeof (guint32)); g_assert_cmpint (length, ==, 3); nmtst_assert_ip4_address (addr_array[2], "192.168.1.1"); g_variant_unref (addr_var); } g_variant_unref (value); g_variant_unref (ip4_dict); /* When deserializing an old-style connection, the first non-0 gateway in * ipv4.addresses is copied to :gateway. */ NMTST_VARIANT_EDITOR (conn_dict, NMTST_VARIANT_DROP_PROPERTY (NM_SETTING_IP4_CONFIG_SETTING_NAME, NM_SETTING_IP_CONFIG_GATEWAY); NMTST_VARIANT_DROP_PROPERTY (NM_SETTING_IP4_CONFIG_SETTING_NAME, "address-data"); ); conn = _connection_new_from_dbus (conn_dict, &error); g_assert_no_error (error); s_ip4 = (NMSettingIPConfig *) nm_connection_get_setting_ip4_config (conn); g_assert_cmpstr (nm_setting_ip_config_get_gateway (s_ip4), ==, "192.168.1.1"); g_object_unref (conn); /* Try again with the gateway in the second address. */ g_variant_builder_init (&addrs_builder, G_VARIANT_TYPE ("aau")); g_variant_builder_add (&addrs_builder, "@au", g_variant_new_fixed_array (G_VARIANT_TYPE_UINT32, addr_vals_0, 3, 4)); g_variant_builder_add (&addrs_builder, "@au", g_variant_new_fixed_array (G_VARIANT_TYPE_UINT32, addr_vals_1, 3, 4)); NMTST_VARIANT_EDITOR (conn_dict, NMTST_VARIANT_CHANGE_PROPERTY (NM_SETTING_IP4_CONFIG_SETTING_NAME, "addresses", "aau", &addrs_builder); ); conn = _connection_new_from_dbus (conn_dict, &error); g_assert_no_error (error); g_variant_unref (conn_dict); s_ip4 = (NMSettingIPConfig *) nm_connection_get_setting_ip4_config (conn); g_assert_cmpstr (nm_setting_ip_config_get_gateway (s_ip4), ==, "192.168.1.1"); g_object_unref (conn); } static void test_setting_ip6_gateway (void) { NMConnection *conn; NMSettingIPConfig *s_ip6; NMIPAddress *addr; GVariant *conn_dict, *ip6_dict, *value; GVariantIter iter; GVariant *gateway_var; GVariantBuilder addrs_builder; guint8 addr_bytes_0[] = { 0xab, 0xcd, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x0a }; guint8 addr_bytes_1[] = { 0xab, 0xcd, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x0b }; guint8 gateway_bytes_1[] = { 0xab, 0xcd, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x01 }; GError *error = NULL; /* When serializing on the daemon side, ipv6.gateway is copied to the first * entry of ipv6.addresses */ conn = nmtst_create_minimal_connection ("test_setting_ip6_gateway", NULL, NM_SETTING_WIRED_SETTING_NAME, NULL); s_ip6 = (NMSettingIPConfig *) nm_setting_ip6_config_new (); g_object_set (s_ip6, NM_SETTING_IP_CONFIG_METHOD, NM_SETTING_IP6_CONFIG_METHOD_MANUAL, NM_SETTING_IP_CONFIG_GATEWAY, "abcd::1", NULL); nm_connection_add_setting (conn, NM_SETTING (s_ip6)); addr = nm_ip_address_new (AF_INET6, "abcd::10", 64, &error); g_assert_no_error (error); nm_setting_ip_config_add_address (s_ip6, addr); nm_ip_address_unref (addr); _nm_utils_is_manager_process = TRUE; conn_dict = nm_connection_to_dbus (conn, NM_CONNECTION_SERIALIZE_ALL); _nm_utils_is_manager_process = FALSE; g_object_unref (conn); ip6_dict = g_variant_lookup_value (conn_dict, NM_SETTING_IP6_CONFIG_SETTING_NAME, NM_VARIANT_TYPE_SETTING); g_assert (ip6_dict != NULL); value = g_variant_lookup_value (ip6_dict, NM_SETTING_IP_CONFIG_GATEWAY, G_VARIANT_TYPE_STRING); g_assert (value != NULL); g_assert_cmpstr (g_variant_get_string (value, NULL), ==, "abcd::1"); g_variant_unref (value); value = g_variant_lookup_value (ip6_dict, NM_SETTING_IP_CONFIG_ADDRESSES, G_VARIANT_TYPE ("a(ayuay)")); g_assert (value != NULL); g_variant_iter_init (&iter, value); while (g_variant_iter_next (&iter, "(@ayu@ay)", NULL, NULL, &gateway_var)) { const guint8 *gateway_bytes; gsize length; gateway_bytes = g_variant_get_fixed_array (gateway_var, &length, 1); g_assert_cmpint (length, ==, 16); nmtst_assert_ip6_address ((struct in6_addr *) gateway_bytes, "abcd::1"); g_variant_unref (gateway_var); } g_variant_unref (value); g_variant_unref (ip6_dict); /* When deserializing an old-style connection, the first non-0 gateway in * ipv6.addresses is copied to :gateway. */ NMTST_VARIANT_EDITOR (conn_dict, NMTST_VARIANT_DROP_PROPERTY (NM_SETTING_IP6_CONFIG_SETTING_NAME, NM_SETTING_IP_CONFIG_GATEWAY); NMTST_VARIANT_DROP_PROPERTY (NM_SETTING_IP6_CONFIG_SETTING_NAME, "address-data"); ); conn = _connection_new_from_dbus (conn_dict, &error); g_assert_no_error (error); s_ip6 = (NMSettingIPConfig *) nm_connection_get_setting_ip6_config (conn); g_assert_cmpstr (nm_setting_ip_config_get_gateway (s_ip6), ==, "abcd::1"); g_object_unref (conn); /* Try again with the gateway in the second address. */ g_variant_builder_init (&addrs_builder, G_VARIANT_TYPE ("a(ayuay)")); g_variant_builder_add (&addrs_builder, "(@ayu@ay)", g_variant_new_fixed_array (G_VARIANT_TYPE_BYTE, addr_bytes_0, 16, 1), 64, g_variant_new_fixed_array (G_VARIANT_TYPE_BYTE, &in6addr_any, 16, 1)); g_variant_builder_add (&addrs_builder, "(@ayu@ay)", g_variant_new_fixed_array (G_VARIANT_TYPE_BYTE, addr_bytes_1, 16, 1), 64, g_variant_new_fixed_array (G_VARIANT_TYPE_BYTE, gateway_bytes_1, 16, 1)); NMTST_VARIANT_EDITOR (conn_dict, NMTST_VARIANT_CHANGE_PROPERTY (NM_SETTING_IP6_CONFIG_SETTING_NAME, "addresses", "a(ayuay)", &addrs_builder); ); conn = _connection_new_from_dbus (conn_dict, &error); g_assert_no_error (error); g_variant_unref (conn_dict); s_ip6 = (NMSettingIPConfig *) nm_connection_get_setting_ip6_config (conn); g_assert_cmpstr (nm_setting_ip_config_get_gateway (s_ip6), ==, "abcd::1"); g_object_unref (conn); } typedef struct { const char *str; const guint8 expected[20]; const guint expected_len; } HexItem; static void test_setting_compare_default_strv (void) { gs_unref_object NMConnection *c1 = NULL, *c2 = NULL; char **strv; NMSettingIPConfig *s_ip2, *s_ip1; gboolean compare; GHashTable *out_settings = NULL; c1 = nmtst_create_minimal_connection ("test_compare_default_strv", NULL, NM_SETTING_WIRED_SETTING_NAME, NULL); nmtst_assert_connection_verifies_and_normalizable (c1); nmtst_connection_normalize (c1); c2 = nm_simple_connection_new_clone (c1); nmtst_assert_connection_verifies_without_normalization (c2); nmtst_assert_connection_equals (c1, FALSE, c2, FALSE); s_ip1 = nm_connection_get_setting_ip4_config (c1); s_ip2 = nm_connection_get_setting_ip4_config (c2); nm_setting_ip_config_clear_dns_options (s_ip2, FALSE); g_object_get (G_OBJECT (s_ip2), NM_SETTING_IP_CONFIG_DNS_OPTIONS, &strv, NULL); g_assert (!strv); nmtst_assert_connection_equals (c1, FALSE, c2, FALSE); nm_setting_ip_config_clear_dns_options (s_ip2, TRUE); g_object_get (G_OBJECT (s_ip2), NM_SETTING_IP_CONFIG_DNS_OPTIONS, &strv, NULL); g_assert (strv && !strv[0]); g_strfreev (strv); compare = nm_setting_diff ((NMSetting *) s_ip1, (NMSetting *) s_ip2, NM_SETTING_COMPARE_FLAG_EXACT, FALSE, &out_settings); g_assert (!compare); g_assert (out_settings); g_assert (g_hash_table_contains (out_settings, NM_SETTING_IP_CONFIG_DNS_OPTIONS)); g_hash_table_unref (out_settings); out_settings = NULL; compare = nm_connection_diff (c1, c2, NM_SETTING_COMPARE_FLAG_EXACT, &out_settings); g_assert (!compare); g_assert (out_settings); g_hash_table_unref (out_settings); out_settings = NULL; } /*****************************************************************************/ static void test_setting_user_data (void) { gs_unref_object NMSettingUser *s_user = NULL; s_user = NM_SETTING_USER (nm_setting_user_new ()); } /*****************************************************************************/ typedef union { struct sockaddr sa; struct sockaddr_in in; struct sockaddr_in6 in6; } SockAddrUnion; static void _sock_addr_endpoint (const char *endpoint, const char *host, gint32 port) { nm_auto_unref_sockaddrendpoint NMSockAddrEndpoint *ep = NULL; const char *s_endpoint; const char *s_host; gint32 s_port; SockAddrUnion sockaddr = { }; g_assert (endpoint); g_assert ((!host) == (port == -1)); g_assert (port >= -1 && port <= G_MAXUINT16); ep = nm_sock_addr_endpoint_new (endpoint); g_assert (ep); s_endpoint = nm_sock_addr_endpoint_get_endpoint (ep); s_host = nm_sock_addr_endpoint_get_host (ep); s_port = nm_sock_addr_endpoint_get_port (ep); g_assert_cmpstr (endpoint, ==, s_endpoint); g_assert_cmpstr (host, ==, s_host); g_assert_cmpint (port, ==, s_port); g_assert (!nm_sock_addr_endpoint_get_fixed_sockaddr (ep, &sockaddr)); if (endpoint[0] != ' ') { gs_free char *endpoint2 = NULL; /* also test with a leading space */ endpoint2 = g_strdup_printf (" %s", endpoint); _sock_addr_endpoint (endpoint2, host, port); } if (endpoint[0] && endpoint[strlen (endpoint) - 1] != ' ') { gs_free char *endpoint2 = NULL; /* also test with a trailing space */ endpoint2 = g_strdup_printf ("%s ", endpoint); _sock_addr_endpoint (endpoint2, host, port); } } static void _sock_addr_endpoint_fixed (const char *endpoint, const char *host, guint16 port, guint scope_id) { nm_auto_unref_sockaddrendpoint NMSockAddrEndpoint *ep = NULL; const char *s_endpoint; const char *s_host; gint32 s_port; int addr_family; NMIPAddr addrbin; SockAddrUnion sockaddr = { }; g_assert (endpoint); g_assert (host); g_assert (port > 0); if (!nm_utils_parse_inaddr_bin (AF_UNSPEC, host, &addr_family, &addrbin)) g_assert_not_reached (); ep = nm_sock_addr_endpoint_new (endpoint); g_assert (ep); s_endpoint = nm_sock_addr_endpoint_get_endpoint (ep); s_host = nm_sock_addr_endpoint_get_host (ep); s_port = nm_sock_addr_endpoint_get_port (ep); g_assert_cmpstr (endpoint, ==, s_endpoint); g_assert_cmpstr (NULL, !=, s_host); g_assert_cmpint (port, ==, s_port); if (!nm_sock_addr_endpoint_get_fixed_sockaddr (ep, &sockaddr)) g_assert_not_reached (); g_assert_cmpint (sockaddr.sa.sa_family, ==, addr_family); if (addr_family == AF_INET) { const SockAddrUnion s = { .in = { .sin_family = AF_INET, .sin_addr = addrbin.addr4_struct, .sin_port = htons (port), }, }; g_assert_cmpint (sockaddr.in.sin_addr.s_addr, ==, addrbin.addr4); g_assert_cmpint (sockaddr.in.sin_port, ==, htons (port)); g_assert (memcmp (&s, &sockaddr, sizeof (s.in)) == 0); } else if (addr_family == AF_INET6) { const SockAddrUnion s = { .in6 = { .sin6_family = AF_INET6, .sin6_addr = addrbin.addr6, .sin6_scope_id = scope_id, .sin6_port = htons (port), }, }; g_assert (memcmp (&sockaddr.in6.sin6_addr, &addrbin, sizeof (addrbin.addr6)) == 0); g_assert_cmpint (sockaddr.in6.sin6_port, ==, htons (port)); g_assert_cmpint (sockaddr.in6.sin6_scope_id, ==, scope_id); g_assert_cmpint (sockaddr.in6.sin6_flowinfo, ==, 0); g_assert (memcmp (&s, &sockaddr, sizeof (s.in6)) == 0); } else g_assert_not_reached (); } static void test_sock_addr_endpoint (void) { _sock_addr_endpoint ("", NULL, -1); _sock_addr_endpoint (":", NULL, -1); _sock_addr_endpoint ("a", NULL, -1); _sock_addr_endpoint ("a:", NULL, -1); _sock_addr_endpoint (":a", NULL, -1); _sock_addr_endpoint ("[]:a", NULL, -1); _sock_addr_endpoint ("[]a", NULL, -1); _sock_addr_endpoint ("[]:", NULL, -1); _sock_addr_endpoint ("[a]b", NULL, -1); _sock_addr_endpoint ("[a:b", NULL, -1); _sock_addr_endpoint ("[a[:b", NULL, -1); _sock_addr_endpoint ("a:6", "a", 6); _sock_addr_endpoint ("a:6", "a", 6); _sock_addr_endpoint ("[a]:6", "a", 6); _sock_addr_endpoint ("[a]:6", "a", 6); _sock_addr_endpoint ("[a]:655", "a", 655); _sock_addr_endpoint ("[ab]:][6", NULL, -1); _sock_addr_endpoint ("[ab]:]:[6", NULL, -1); _sock_addr_endpoint ("[a[]:b", NULL, -1); _sock_addr_endpoint ("[192.169.6.x]:6", "192.169.6.x", 6); _sock_addr_endpoint ("[192.169.6.x]:0", NULL, -1); _sock_addr_endpoint ("192.169.6.7:0", NULL, -1); _sock_addr_endpoint_fixed ("192.169.6.7:6", "192.169.6.7", 6, 0); _sock_addr_endpoint_fixed ("[192.169.6.7]:6", "192.169.6.7", 6, 0); _sock_addr_endpoint_fixed ("[a:b::]:6", "a:b::", 6, 0); _sock_addr_endpoint_fixed ("[a:b::%7]:6", "a:b::", 6, 7); _sock_addr_endpoint_fixed ("a:b::1%75:6", "a:b::1", 6, 75); _sock_addr_endpoint_fixed ("a:b::1%0:64", "a:b::1", 64, 0); } /*****************************************************************************/ static void test_hexstr2bin (void) { static const HexItem items[] = { { "aaBBCCddDD10496a", { 0xaa, 0xbb, 0xcc, 0xdd, 0xdd, 0x10, 0x49, 0x6a }, 8 }, { "aa:bb:cc:dd:10:49:6a", { 0xaa, 0xbb, 0xcc, 0xdd, 0x10, 0x49, 0x6a }, 7 }, { "0xccddeeff", { 0xcc, 0xdd, 0xee, 0xff }, 4 }, { "1:2:66:77:80", { 0x01, 0x02, 0x66, 0x77, 0x80 }, 5 }, { "e", { 0x0e }, 1 }, { "ef", { 0xef }, 1 }, { "efa" }, { "efad", { 0xef, 0xad }, 2 }, { "ef:a", { 0xef, 0x0a }, 2 }, { "aabb1199:" }, { ":aabb1199" }, { "aabb$$dd" }, { "aab:ccc:ddd" }, { "aab::ccc:ddd" }, }; guint i; for (i = 0; i < G_N_ELEMENTS (items); i++) { gs_unref_bytes GBytes *b = NULL; b = nm_utils_hexstr2bin (items[i].str); if (items[i].expected_len) g_assert (b); else g_assert (!b); g_assert (nm_utils_gbytes_equal_mem (b, items[i].expected, items[i].expected_len)); } } /*****************************************************************************/ static void _do_strquote (const char *str, gsize buf_len, const char *expected) { char canary = (char) nmtst_get_rand_uint32 (); gs_free char *buf_full = g_malloc (buf_len + 2); char *buf = &buf_full[1]; const char *b; buf[-1] = canary; buf[buf_len] = canary; if (buf_len == 0) { b = nm_strquote (NULL, 0, str); g_assert (b == NULL); g_assert (expected == NULL); b = nm_strquote (buf, 0, str); g_assert (b == buf); } else { b = nm_strquote (buf, buf_len, str); g_assert (b == buf); g_assert (strlen (b) < buf_len); g_assert_cmpstr (expected, ==, b); } g_assert (buf[-1] == canary); g_assert (buf[buf_len] == canary); } static void test_nm_strquote (void) { _do_strquote (NULL, 0, NULL); _do_strquote ("", 0, NULL); _do_strquote ("a", 0, NULL); _do_strquote ("ab", 0, NULL); _do_strquote (NULL, 1, ""); _do_strquote (NULL, 2, "("); _do_strquote (NULL, 3, "(n"); _do_strquote (NULL, 4, "(nu"); _do_strquote (NULL, 5, "(nul"); _do_strquote (NULL, 6, "(null"); _do_strquote (NULL, 7, "(null)"); _do_strquote (NULL, 8, "(null)"); _do_strquote (NULL, 100, "(null)"); _do_strquote ("", 1, ""); _do_strquote ("", 2, "^"); _do_strquote ("", 3, "\"\""); _do_strquote ("", 4, "\"\""); _do_strquote ("", 5, "\"\""); _do_strquote ("", 100, "\"\""); _do_strquote ("a", 1, ""); _do_strquote ("a", 2, "^"); _do_strquote ("a", 3, "\"^"); _do_strquote ("a", 4, "\"a\""); _do_strquote ("a", 5, "\"a\""); _do_strquote ("a", 6, "\"a\""); _do_strquote ("a", 100, "\"a\""); _do_strquote ("ab", 1, ""); _do_strquote ("ab", 2, "^"); _do_strquote ("ab", 3, "\"^"); _do_strquote ("ab", 4, "\"a^"); _do_strquote ("ab", 5, "\"ab\""); _do_strquote ("ab", 6, "\"ab\""); _do_strquote ("ab", 7, "\"ab\""); _do_strquote ("ab", 100, "\"ab\""); _do_strquote ("abc", 1, ""); _do_strquote ("abc", 2, "^"); _do_strquote ("abc", 3, "\"^"); _do_strquote ("abc", 4, "\"a^"); _do_strquote ("abc", 5, "\"ab^"); _do_strquote ("abc", 6, "\"abc\""); _do_strquote ("abc", 7, "\"abc\""); _do_strquote ("abc", 100, "\"abc\""); } /*****************************************************************************/ #define UUID_NS_ZERO "00000000-0000-0000-0000-000000000000" #define UUID_NS_DNS "6ba7b810-9dad-11d1-80b4-00c04fd430c8" #define UUID_NS_URL "6ba7b811-9dad-11d1-80b4-00c04fd430c8" #define UUID_NS_OID "6ba7b812-9dad-11d1-80b4-00c04fd430c8" #define UUID_NS_X500 "6ba7b814-9dad-11d1-80b4-00c04fd430c8" static const NMUuid * _uuid (const char *str) { static NMUuid u; g_assert (str); g_assert (_nm_utils_uuid_parse (str, &u)); return &u; } static void _test_uuid (int uuid_type, const char *expected_uuid, const char *str, gssize slen, gpointer type_args) { gs_free char *uuid_test = NULL; uuid_test = nm_utils_uuid_generate_from_string (str, slen, uuid_type, type_args); g_assert (uuid_test); g_assert (nm_utils_is_uuid (uuid_test)); if (!nm_streq (uuid_test, expected_uuid)) { g_error ("UUID test failed: type=%d; text=%s, len=%lld, ns=%s, uuid=%s, expected=%s", uuid_type, str, (long long) slen, NM_IN_SET (uuid_type, NM_UTILS_UUID_TYPE_VERSION3, NM_UTILS_UUID_TYPE_VERSION5) ? (((const char *) type_args) ?: "(all-zero)") : (type_args ? "(unknown)" : "(null)"), uuid_test, expected_uuid); } if (slen < 0) { /* also test that passing slen==-1 yields the same result as passing strlen(str). */ _test_uuid (uuid_type, expected_uuid, str, strlen (str), type_args); } else if (str && slen == 0) { /* also test if we accept NULL for slen==0 */ _test_uuid (uuid_type, expected_uuid, NULL, 0, type_args); } if ( NM_IN_SET (uuid_type, NM_UTILS_UUID_TYPE_VERSION3, NM_UTILS_UUID_TYPE_VERSION5) && !type_args) { /* For version3 and version5, a missing @type_args is equal to UUID_NS_ZERO */ _test_uuid (uuid_type, expected_uuid, str, slen, UUID_NS_ZERO); } } typedef struct { const char *uuid3; const char *uuid5; } ExpectedUuids; static void test_nm_utils_uuid_generate_from_string (void) { const ExpectedUuids zero_uuids[] = { { .uuid3 = "19826852-5007-3022-a72a-212f66e9fac3", .uuid5 = "b6c54489-38a0-5f50-a60a-fd8d76219cae", }, { .uuid3 = "9153af2e-fc8e-34f3-9e8b-81f73b33d0cb", .uuid5 = "11116e73-1c03-5de6-9130-5f9925ae8ab4", }, { .uuid3 = "2f06a3ae-d78d-30d7-b898-088a0e0b76f6", .uuid5 = "1087ebe8-1ef8-5d97-8873-735b4949004d", }, { .uuid3 = "aca948e0-1468-3a51-9f2e-c688a484efd7", .uuid5 = "7e57d004-2b97-5e7a-b45f-5387367791cd", }, { .uuid3 = "b74e537a-53e8-3808-9abd-58546a6542bd", .uuid5 = "1dd80df1-492c-5dc5-aec2-6bf0e104f923", }, { .uuid3 = "1b00958a-7d76-3d08-8aba-c66c5828658c", .uuid5 = "f797f61e-a392-5acf-af25-b46057f1c8e8", }, { .uuid3 = "7ba18f7d-c9cf-3b48-a89e-ad79243135cc", .uuid5 = "e02c9780-2fc5-5d57-b92f-4cc3a64bff16", }, { .uuid3 = "9baf0978-1a60-35c5-9e9b-bec8d259fd4e", .uuid5 = "94167980-f909-527e-a4af-bc3155f586d3", }, { .uuid3 = "588668c0-7631-39c7-9976-c7d414adf7ba", .uuid5 = "9e3eefda-b56e-56bd-8a3a-0b8009d4a536", }, { .uuid3 = "8edb3613-9612-3b32-9dd7-0a01aa8ed453", .uuid5 = "9b75648e-d38c-54e8-adee-1fb295a079c9", }, { .uuid3 = "f3b34394-63a5-3773-9014-1f8a50d765b8", .uuid5 = "dd56b598-9e74-58c3-b3e8-2c623780b8ed", }, { .uuid3 = "0572965f-05b8-342b-b225-d5c29d449eee", .uuid5 = "5666449a-fb7e-55b7-ae9f-0552e6513a10", }, { .uuid3 = "6f7177c3-77b0-3f42-82a8-7031e25fcccf", .uuid5 = "10b38db9-82fc-528e-9ddb-1f09b7dbf907", }, { .uuid3 = "d1e0f845-bc1b-368c-b8c8-49ab0b9e486b", .uuid5 = "85492596-9468-5845-9c7f-d4ae999cb751", }, { .uuid3 = "46371ea3-c8a3-34d8-b2cf-2fa90bda4378", .uuid5 = "22b1c0dd-aa5d-54a4-8768-5adfd0d112bd", }, { .uuid3 = "f1e6b499-9b68-343b-a5c5-ece7acc49a68", .uuid5 = "9cc429f8-200e-52a3-9e3b-ef134afa1e29", }, { .uuid3 = "9ed06458-c712-31dd-aba5-6cf79879fabe", .uuid5 = "3949f95c-5d76-5ee2-af60-8e2d8fcf649d", }, { .uuid3 = "4ddd5cd7-bc83-36aa-909c-4e660f57c830", .uuid5 = "0e994a02-069b-58fb-b3a4-d7dc94e90fca", }, { .uuid3 = "335fa537-0909-395d-a696-6f41827dcbeb", .uuid5 = "17db3a41-de9b-5c6b-904d-833943209b3c", }, { .uuid3 = "dbd58444-05ad-3edd-adc7-4393ecbcb43c", .uuid5 = "1bd906f2-05f9-5ab5-a39a-4c17a188f886", }, { .uuid3 = "a1c62d82-d13c-361b-8f4e-ca91bc2f7fc5", .uuid5 = "ce6550fd-95b7-57e4-9aa7-461522666be4", }, { .uuid3 = "e943d83e-3f82-307f-81ed-b7a7bcd0743e", .uuid5 = "04aa09ee-b420-57ac-8a23-5d99907fb0a1", }, { .uuid3 = "cabf46dd-9f09-375c-8f6e-f2a8cf114709", .uuid5 = "8ece2c62-0c31-5c55-b7c6-155381e3780e", }, { .uuid3 = "19beddf3-f2fb-340f-96ac-4f394960b7a7", .uuid5 = "5762a9f9-9a21-59ab-b0d2-2cb90027ef7f", }, { .uuid3 = "08d835c2-f4ca-394c-ba7f-2494d8b60c6c", .uuid5 = "23c8409d-4b5f-5b6a-b946-41e49bad6c78", }, { .uuid3 = "3b8c6847-5331-35bf-9cd9-ced50e53cd7c", .uuid5 = "e8e396be-95d5-5569-8edc-e0b64c2b7613", }, { .uuid3 = "e601f160-484b-3254-8f3b-0a25c7203d8a", .uuid5 = "bc8b3cbc-ad5b-5808-a1b0-e0f7a1ad68a3", }, { .uuid3 = "e5e492ed-5349-379d-b7de-a370a51e44a3", .uuid5 = "62c5ed3f-9afa-59ad-874f-a9dd8afc69d4", }, { .uuid3 = "c40111f6-fe97-305e-bfce-7db730c3d2ec", .uuid5 = "66877a72-7243-59ed-b9e3-b5023b6da9c2", }, { .uuid3 = "21e18ea8-95c2-362b-9ca9-25d6a0ff2dff", .uuid5 = "49a49eee-7e86-5d66-837a-8a8810cb5562", }, { .uuid3 = "adab623b-1343-307f-80d8-58d005376ad9", .uuid5 = "e4a2a7ed-3bf3-53cf-a2bb-154dbb39a38c", }, { .uuid3 = "67e9fc7c-dafe-356d-ac1a-a63ce3f44813", .uuid5 = "50cacfc9-f5d2-52dd-897c-a25a0927b816", }, { .uuid3 = "36cc7f20-126c-3e40-94e7-737ac7486547", .uuid5 = "ca629991-3f2b-5e86-9bb7-37a335f7d809", }, { .uuid3 = "fe282996-ac5e-3d13-b478-5def30007a8e", .uuid5 = "c1adf8a7-f72a-58ae-82d5-d18807f12e2e", }, { .uuid3 = "3bfe339c-05ae-3233-a1a5-ebf1ead589db", .uuid5 = "6120c3cd-24e1-5ce4-987b-f8bfee2e4633", }, { .uuid3 = "d1d90bc7-da4a-3cd7-a7c8-a1a89765d8ee", .uuid5 = "433d6a26-c319-5fcf-9a30-5ec6ad59d109", }, { .uuid3 = "10b88a02-0102-359b-81e9-7e3b0ff7d25e", .uuid5 = "77d228d9-1b96-59e2-a07e-a8fdd4f62884", }, { .uuid3 = "7da5e4f2-6df0-3aca-a1b0-b7f8b1340e1d", .uuid5 = "698259bf-a32b-5e00-9ec6-88b12278c4ad", }, { .uuid3 = "cbe24d98-ca20-3058-86b6-24a6b36ceff0", .uuid5 = "60dbca63-704f-5666-9f64-f4e1a630c4aa", }, { .uuid3 = "04d84e6a-b793-3993-afbf-bae7cfc42b49", .uuid5 = "79d63ec0-a39d-557d-8299-f4c97acfadc3", }, { .uuid3 = "fdd157d8-a537-350a-9cc9-1930e8666c63", .uuid5 = "7df7f75e-a146-5a76-828b-bac052db312b", }, { .uuid3 = "0bea36bb-24a7-3ee6-a98d-116433c14cd4", .uuid5 = "2bcca2e9-2879-53e3-b09d-cbbfd58771b2", }, { .uuid3 = "52b040a4-1b84-32d2-b758-f82386f7e0f0", .uuid5 = "cb7bdca3-e9f7-50cd-b72e-73cb9ff24f62", }, { .uuid3 = "0f0a4e26-e034-3021-acf2-4e886af43092", .uuid5 = "8e428e2b-5da3-5368-b760-5ca07ccbd819", }, { .uuid3 = "819d3cd1-afe5-3e4a-9f0c-945e25d09879", .uuid5 = "f340ef4d-139c-567a-b0fc-7c495336674e", }, { .uuid3 = "e7df1a3b-c9f8-3e5a-88d6-ba72b2a0f27b", .uuid5 = "7e3f5fd2-3c93-58d6-9f35-6e0192445b11", }, { .uuid3 = "0854bedf-74ba-3f2b-b823-dc2c90d27c76", .uuid5 = "bc112b6b-c5de-5ee9-b816-808792743a20", }, { .uuid3 = "a1b8c3ba-f821-32ef-a3fd-b97b3855efa8", .uuid5 = "47f8f82d-9fcd-553c-90c5-3f3cb3ad00ad", }, { .uuid3 = "9458f819-079b-3033-9430-ba10f576c067", .uuid5 = "bee5c091-5f01-51fa-86bb-e9488fd3b4da", }, { .uuid3 = "8e1f240a-e386-3e00-866a-6f9da1e3503f", .uuid5 = "8ea92cea-d741-566f-a44a-d51e65b4c5e4", }, }; const ExpectedUuids dns_uuids[] = { { .uuid3 = "4385125b-dd1e-3025-880f-3311517cc8d5", .uuid5 = "6af613b6-569c-5c22-9c37-2ed93f31d3af", }, { .uuid3 = "afd0b036-625a-3aa8-b639-9dc8c8fff0ff", .uuid5 = "b04965e6-a9bb-591f-8f8a-1adcb2c8dc39", }, { .uuid3 = "9c45c2f1-1761-3daa-ad31-1ff8703ae846", .uuid5 = "4b166dbe-d99d-5091-abdd-95b83330ed3a", }, { .uuid3 = "15e0ba07-10e4-3d7f-aaff-c00fed873c88", .uuid5 = "98123fde-012f-5ff3-8b50-881449dac91a", }, { .uuid3 = "bc27b4db-bc0f-34f9-ae8e-4b72f2d51b60", .uuid5 = "6ed955c6-506a-5343-9be4-2c0afae02eef", }, { .uuid3 = "7586bfed-b8b8-3bb3-9c95-09a4a79dc0f7", .uuid5 = "c8691da2-158a-5ed6-8537-0e6f140801f2", }, { .uuid3 = "881430b6-8d28-3175-b87d-e81f2f5978c6", .uuid5 = "a6c4fc8f-6950-51de-a9ae-2c519c465071", }, { .uuid3 = "24075675-98ae-354e-89ca-0126a9ad36e3", .uuid5 = "a9f96b98-dd44-5216-ab0d-dbfc6b262edf", }, { .uuid3 = "2c269ea4-dbfd-32dd-9bd7-a5c22677d18b", .uuid5 = "e99caacd-6c45-5906-bd9f-b79e62f25963", }, { .uuid3 = "44eb0948-118f-3f28-87e4-f61c8f889aba", .uuid5 = "e4d80b30-151e-51b5-9f4f-18a3b82718e6", }, { .uuid3 = "fc72beeb-f790-36ee-a73d-33888c9d8880", .uuid5 = "0159d6c7-973f-5e7a-a9a0-d195d0ea6fe2", }, { .uuid3 = "1e46afa2-6176-3cd3-9750-3015846723df", .uuid5 = "7fef88f7-411d-5669-b42d-bf5fc7f9b58b", }, { .uuid3 = "0042b01d-95bd-343f-bd9f-3186bfd63508", .uuid5 = "52524d6e-10dc-5261-aa36-8b2efcbaa5f0", }, { .uuid3 = "115ff52f-d605-3b4b-98fe-c0ea57f4930c", .uuid5 = "91c274f2-9a0d-5ce6-ac3d-7529f452df21", }, { .uuid3 = "ed0221e8-ac7d-393b-821d-25183567885b", .uuid5 = "0ff1e264-520d-543a-87dd-181a491e667e", }, { .uuid3 = "508ef333-85a6-314c-bcf3-17ddc32b2216", .uuid5 = "23986425-d3a5-5e13-8bab-299745777a8d", }, { .uuid3 = "a4715ee0-524a-37cc-beb2-a0b5030757b7", .uuid5 = "c15b38c9-9a3e-543c-a703-dd742f25b4d5", }, { .uuid3 = "d1c72756-aaec-3470-a2f2-97415f44d72f", .uuid5 = "db680066-c83d-5ed7-89a4-1d79466ea62d", }, { .uuid3 = "7aec2f01-586e-3d53-b8f3-6cf7e6b649a4", .uuid5 = "cadb7952-2bba-5609-88d4-8e47ec4e7920", }, { .uuid3 = "3d234b88-8d6f-319a-91ea-edb6059fc825", .uuid5 = "35140057-a2a4-5adb-a500-46f8ed8b66a9", }, { .uuid3 = "d2568554-93ec-30c7-9e15-f383be19e5bb", .uuid5 = "66e549b7-01e2-5d07-98d5-430f74d8d3b2", }, { .uuid3 = "800e59a7-dd0f-3114-8e58-ab7e213895ca", .uuid5 = "292c8e99-2378-55aa-83d8-350e0ac3f1cc", }, { .uuid3 = "3b7d03f0-e067-3d72-84f4-e410ac36ef57", .uuid5 = "0e3b230a-0509-55d8-96a0-9875f387a2be", }, { .uuid3 = "8762be68-de95-391a-94a0-c5fd0446e037", .uuid5 = "4c507660-a83b-55c0-9b2b-83eccb07723d", }, { .uuid3 = "2bd8b4c9-01af-3cd0-aced-94ee6e2004b8", .uuid5 = "a1b9b633-da11-58be-b1a9-5cfa2848f186", }, { .uuid3 = "a627d6a4-394a-33f5-b68e-22bfb6488d01", .uuid5 = "c2708a8b-120a-56f5-a30d-990048af87cc", }, { .uuid3 = "6a592510-17d9-3925-b321-4a8d4927f8d0", .uuid5 = "e7263999-68b6-5a23-b530-af25b7efd632", }, { .uuid3 = "9ee72491-59c4-333c-bb93-fe733a842fdb", .uuid5 = "ce1ae2d5-3454-5952-97ff-36ff935bcfe9", }, { .uuid3 = "2591c62c-0a9d-3c28-97bc-fa0401556a3c", .uuid5 = "33677b87-bc8d-5ff6-9a25-fe60225e4bf0", }, { .uuid3 = "7912be1e-4562-373b-92e2-3d6d2123bc8e", .uuid5 = "ed2305ae-e8f9-5387-b860-3d80ae6c02f7", }, { .uuid3 = "09370cda-89a4-3a48-b592-9c0486e0d5e4", .uuid5 = "604ed872-ae2d-5d91-8e3e-572f3a3aaaa5", }, { .uuid3 = "de5980d3-a137-373c-850b-ca3e5f100779", .uuid5 = "8f8173d9-2f8d-5636-a693-24d9f79ba651", }, { .uuid3 = "9441501d-f633-365a-8955-9df443edc762", .uuid5 = "36eb8d4d-b854-51f1-9fdf-3735964225d5", }, { .uuid3 = "434ada18-13ce-3c08-8b40-a1a1ae030569", .uuid5 = "3493b6ca-f84b-56a9-97cc-c0bd1c46c4c0", }, { .uuid3 = "a13b6160-bd23-3710-a150-41d800dd30b4", .uuid5 = "f413ea13-fcd9-5b44-9d22-1fa1f7b063a5", }, { .uuid3 = "73a67c12-c5f0-3288-ad6a-c78aea0917b0", .uuid5 = "f468d924-d23b-56c2-b90f-3d1cf4b45337", }, { .uuid3 = "a126ee4f-a222-357d-b71b-7d3f226c559f", .uuid5 = "8828c9d6-ed76-5c09-bf64-ba9e9cd90896", }, { .uuid3 = "48f4f36b-b015-3137-9b6e-351bb175c7f7", .uuid5 = "facb7618-55ca-5c30-9cba-fd567b6c0611", }, { .uuid3 = "3fe8f6a3-fe4a-3487-89d6-dd06c6ad02e3", .uuid5 = "96f3de0e-6412-5434-b406-67ef3352ab85", }, { .uuid3 = "d68fa2d4-adc9-3b20-ac77-42585cd1d59f", .uuid5 = "9ebacb89-40ab-52b3-93a2-9054611d8f55", }, { .uuid3 = "819f86a3-31d5-3e72-a83e-142c3a3e4832", .uuid5 = "681046ff-9129-5ade-b11c-769864e02184", }, { .uuid3 = "9957b433-ddc8-3113-a3e6-5512cf13dab1", .uuid5 = "c13d0b5d-1ca3-57b6-a23f-8586bca44928", }, { .uuid3 = "5aab6e0c-b7d3-379c-92e3-2bfbb5572511", .uuid5 = "7c411b5e-9d3f-50b5-9c28-62096e41c4ed", }, { .uuid3 = "11c8ff30-3a7d-3547-80a7-d61b8abeeda8", .uuid5 = "f825aafe-6696-5121-b263-6b2c408b7f43", }, { .uuid3 = "98799b9f-1c5e-30b3-930f-e412b862cbe4", .uuid5 = "f2b4caea-61c3-5bed-8ce7-d8b9d16e129e", }, { .uuid3 = "9bdf2544-31d8-3555-94b0-6a749118a996", .uuid5 = "3593855a-6557-5736-8cab-172c6987f949", }, { .uuid3 = "ddcfb9b3-e990-3985-9021-546a2711e7e5", .uuid5 = "36392431-d554-5385-b876-7bc6e1cb26b3", }, { .uuid3 = "190d7a78-1484-3136-80a6-40f28852785c", .uuid5 = "7e645493-0898-5501-8155-e8578b4f5224", }, { .uuid3 = "6ed693e4-7dc0-3210-856b-a6eb4cc73e13", .uuid5 = "14dc6a81-0491-5683-baaf-7582a61c5798", }, { .uuid3 = "b6a14b21-e73a-3ce2-9076-a804c434f5c6", .uuid5 = "883e0a9c-e3b3-5f9c-8073-2913cbbb99ec", }, }; char i_str[30]; guint i; _test_uuid (NM_UTILS_UUID_TYPE_LEGACY, "d41d8cd9-8f00-b204-e980-0998ecf8427e", "", -1, NULL); _test_uuid (NM_UTILS_UUID_TYPE_LEGACY, "0cc175b9-c0f1-b6a8-31c3-99e269772661", "a", -1, NULL); _test_uuid (NM_UTILS_UUID_TYPE_LEGACY, "098f6bcd-4621-d373-cade-4e832627b4f6", "test", -1, NULL); _test_uuid (NM_UTILS_UUID_TYPE_LEGACY, "70350f60-27bc-e371-3f6b-76473084309b", "a\0b", 3, NULL); _test_uuid (NM_UTILS_UUID_TYPE_LEGACY, "59c0547b-7fe2-1c15-2cce-e328e8bf6742", "/etc/NetworkManager/system-connections/em1", -1, NULL); _test_uuid (NM_UTILS_UUID_TYPE_VERSION3, "4ae71336-e44b-39bf-b9d2-752e234818a5", "", -1, NULL); _test_uuid (NM_UTILS_UUID_TYPE_VERSION3, "0531103a-d8fc-3dd4-b972-d98e4750994e", "a", -1, NULL); _test_uuid (NM_UTILS_UUID_TYPE_VERSION3, "96e17d7a-ac89-38cf-95e1-bf5098da34e1", "test", -1, NULL); _test_uuid (NM_UTILS_UUID_TYPE_VERSION3, "8156568e-4ae6-3f34-a93e-18e2c6cbbf78", "a\0b", 3, NULL); _test_uuid (NM_UTILS_UUID_TYPE_VERSION3, "c87ee674-4ddc-3efe-a74e-dfe25da5d7b3", "", -1, UUID_NS_DNS); _test_uuid (NM_UTILS_UUID_TYPE_VERSION3, "4c104dd0-4821-30d5-9ce3-0e7a1f8b7c0d", "a", -1, UUID_NS_DNS); _test_uuid (NM_UTILS_UUID_TYPE_VERSION3, "45a113ac-c7f2-30b0-90a5-a399ab912716", "test", -1, UUID_NS_DNS); _test_uuid (NM_UTILS_UUID_TYPE_VERSION3, "002a0ada-f547-375a-bab5-896a11d1927e", "a\0b", 3, UUID_NS_DNS); _test_uuid (NM_UTILS_UUID_TYPE_VERSION3, "9a75f5f2-195e-31a9-9d07-8c18b5d3b285", "test123", -1, UUID_NS_DNS); _test_uuid (NM_UTILS_UUID_TYPE_VERSION3, "ec794efe-a384-3b11-a0b6-ec8995bc6acc", "x", -1, UUID_NS_DNS); _test_uuid (NM_UTILS_UUID_TYPE_VERSION5, "a7650b9f-f19f-5300-8a13-91160ea8de2c", "a\0b", 3, NULL); _test_uuid (NM_UTILS_UUID_TYPE_VERSION5, "4f3f2898-69e3-5a0d-820a-c4e87987dbce", "a", -1, UUID_NS_DNS); _test_uuid (NM_UTILS_UUID_TYPE_VERSION5, "05b16a01-46c6-56dd-bd6e-c6dfb4a1427a", "x", -1, UUID_NS_DNS); _test_uuid (NM_UTILS_UUID_TYPE_VERSION5, "c9ed566a-6b79-5d3a-b2b7-96a936b48cf3", "test123", -1, UUID_NS_DNS); for (i = 0; i < G_N_ELEMENTS (zero_uuids); i++) { nm_sprintf_buf (i_str, "%u", i), _test_uuid (NM_UTILS_UUID_TYPE_VERSION3, zero_uuids[i].uuid3, i_str, -1, NULL); _test_uuid (NM_UTILS_UUID_TYPE_VERSION5, zero_uuids[i].uuid5, i_str, -1, NULL); } for (i = 0; i < G_N_ELEMENTS (dns_uuids); i++) { nm_sprintf_buf (i_str, "%u", i), _test_uuid (NM_UTILS_UUID_TYPE_VERSION3, dns_uuids[i].uuid3, i_str, -1, UUID_NS_DNS); _test_uuid (NM_UTILS_UUID_TYPE_VERSION5, dns_uuids[i].uuid5, i_str, -1, UUID_NS_DNS); } /* examples from cpython unit tests: */ _test_uuid (NM_UTILS_UUID_TYPE_VERSION3, "6fa459ea-ee8a-3ca4-894e-db77e160355e", "python.org", -1, UUID_NS_DNS); _test_uuid (NM_UTILS_UUID_TYPE_VERSION5, "886313e1-3b8a-5372-9b90-0c9aee199e5d", "python.org", -1, UUID_NS_DNS); _test_uuid (NM_UTILS_UUID_TYPE_VERSION3, "9fe8e8c4-aaa8-32a9-a55c-4535a88b748d", "http://python.org/", -1, UUID_NS_URL); _test_uuid (NM_UTILS_UUID_TYPE_VERSION5, "4c565f0d-3f5a-5890-b41b-20cf47701c5e", "http://python.org/", -1, UUID_NS_URL); _test_uuid (NM_UTILS_UUID_TYPE_VERSION3, "dd1a1cef-13d5-368a-ad82-eca71acd4cd1", "1.3.6.1", -1, UUID_NS_OID); _test_uuid (NM_UTILS_UUID_TYPE_VERSION5, "1447fa61-5277-5fef-a9b3-fbc6e44f4af3", "1.3.6.1", -1, UUID_NS_OID); _test_uuid (NM_UTILS_UUID_TYPE_VERSION3, "658d3002-db6b-3040-a1d1-8ddd7d189a4d", "c=ca", -1, UUID_NS_X500); _test_uuid (NM_UTILS_UUID_TYPE_VERSION5, "cc957dd1-a972-5349-98cd-874190002798", "c=ca", -1, UUID_NS_X500); _test_uuid (NM_UTILS_UUID_TYPE_VERSION5, "74738ff5-5367-5958-9aee-98fffdcd1876", "www.example.org", -1, UUID_NS_DNS); } /*****************************************************************************/ static void __test_uuid (const char *expected_uuid, const char *str, gssize slen, char *uuid_test) { g_assert (uuid_test); g_assert (nm_utils_is_uuid (uuid_test)); if (strcmp (uuid_test, expected_uuid)) { g_error ("UUID test failed (1): text=%s, len=%lld, expected=%s, uuid_test=%s", str, (long long) slen, expected_uuid, uuid_test); } g_free (uuid_test); uuid_test = nm_utils_uuid_generate_from_string (str, slen, NM_UTILS_UUID_TYPE_VERSION3, NM_UTILS_UUID_NS); g_assert (uuid_test); g_assert (nm_utils_is_uuid (uuid_test)); if (strcmp (uuid_test, expected_uuid)) { g_error ("UUID test failed (2): text=%s; len=%lld, expected=%s, uuid2=%s", str, (long long) slen, expected_uuid, uuid_test); } g_free (uuid_test); } #define _test_uuid(expected_uuid, str, strlen, ...) __test_uuid (expected_uuid, str, strlen, _nm_utils_uuid_generate_from_strings(__VA_ARGS__, NULL)) static void test_nm_utils_uuid_generate_from_strings (void) { const NMUuid uuid0 = { }; g_assert_cmpmem (&uuid0, sizeof (uuid0), _uuid ("00000000-0000-0000-0000-000000000000"), 16); g_assert (nm_utils_uuid_is_null (NULL)); g_assert (nm_utils_uuid_is_null (&uuid0)); g_assert ( nm_utils_uuid_is_null (_uuid ("00000000-0000-0000-0000-000000000000"))); g_assert (!nm_utils_uuid_is_null (_uuid ("10000000-0000-0000-0000-000000000000"))); _test_uuid ("b07c334a-399b-32de-8d50-58e4e08f98e3", "", 0, NULL); _test_uuid ("b8a426cb-bcb5-30a3-bd8f-6786fea72df9", "\0", 1, ""); _test_uuid ("12a4a982-7aae-39e1-951e-41aeb1250959", "a\0", 2, "a"); _test_uuid ("69e22c7e-f89f-3a43-b239-1cb52ed8db69", "aa\0", 3, "aa"); _test_uuid ("59829fd3-5ad5-3d90-a7b0-4911747e4088", "\0\0", 2, "", ""); _test_uuid ("01ad0e06-6c50-3384-8d86-ddab81421425", "a\0\0", 3, "a", ""); _test_uuid ("e1ed8647-9ed3-3ec8-8c6d-e8204524d71d", "aa\0\0", 4, "aa", ""); _test_uuid ("fb1c7cd6-275c-3489-9382-83b900da8af0", "\0a\0", 3, "", "a"); _test_uuid ("5d79494e-c4ba-31a6-80a2-d6016ccd7e17", "a\0a\0", 4, "a", "a"); _test_uuid ("fd698d86-1b60-3ebe-855f-7aada9950a8d", "aa\0a\0", 5, "aa", "a"); _test_uuid ("8c573b48-0f01-30ba-bb94-c5f59f4fe517", "\0aa\0", 4, "", "aa"); _test_uuid ("2bdd3d46-eb83-3c53-a41b-a724d04b5544", "a\0aa\0", 5, "a", "aa"); _test_uuid ("13d4b780-07c1-3ba7-b449-81c4844ef039", "aa\0aa\0", 6, "aa", "aa"); _test_uuid ("dd265bf7-c05a-3037-9939-b9629858a477", "a\0b\0", 4, "a", "b"); } /*****************************************************************************/ static void test_nm_utils_ascii_str_to_int64_check (const char *str, guint base, gint64 min, gint64 max, gint64 fallback, int exp_errno, gint64 exp_val) { gint64 v; errno = 1; v = _nm_utils_ascii_str_to_int64 (str, base, min, max, fallback); g_assert_cmpint (errno, ==, exp_errno); g_assert_cmpint (v, ==, exp_val); } static void test_nm_utils_ascii_str_to_int64_do (const char *str, guint base, gint64 min, gint64 max, gint64 fallback, int exp_errno, gint64 exp_val) { const char *sign = ""; const char *val; static const char *whitespaces[] = { "", " ", "\r\n\t", " \r\n\t ", " \r\n\t \t\r\n\t", NULL, }; static const char *nulls[] = { "", "0", "00", "0000", "0000000000000000", "00000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000", "00000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000", NULL, }; const char **ws_pre, **ws_post, **null; guint i; if (str == NULL || exp_errno != 0) { test_nm_utils_ascii_str_to_int64_check (str, base, min, max, fallback, exp_errno, exp_val); return; } if (strncmp (str, "-", 1) == 0) sign = "-"; val = str + strlen (sign); for (ws_pre = whitespaces; *ws_pre; ws_pre++) { for (ws_post = whitespaces; *ws_post; ws_post++) { for (null = nulls; *null; null++) { for (i = 0; ; i++) { char *s; const char *str_base = ""; if (base == 16) { if (i == 1) str_base = "0x"; else if (i > 1) break; } else if (base == 8) { if (i == 1) str_base = "0"; else if (i > 1) break; } else if (base == 0) { if (i > 0) break; /* with base==0, a leading zero would be interpreted as octal. Only test without *null */ if ((*null)[0]) break; } else { if (i > 0) break; } s = g_strdup_printf ("%s%s%s%s%s%s", *ws_pre, sign, str_base, *null, val, *ws_post); test_nm_utils_ascii_str_to_int64_check (s, base, min, max, fallback, exp_errno, exp_val); g_free (s); } } } } } static void test_nm_utils_ascii_str_to_int64 (void) { test_nm_utils_ascii_str_to_int64_do (NULL, 10, 0, 10000, -1, EINVAL, -1); test_nm_utils_ascii_str_to_int64_do ("", 10, 0, 10000, -1, EINVAL, -1); test_nm_utils_ascii_str_to_int64_do ("1x", 10, 0, 10000, -1, EINVAL, -1); test_nm_utils_ascii_str_to_int64_do ("4711", 10, 0, 10000, -1, 0, 4711); test_nm_utils_ascii_str_to_int64_do ("10000", 10, 0, 10000, -1, 0, 10000); test_nm_utils_ascii_str_to_int64_do ("10001", 10, 0, 10000, -1, ERANGE, -1); test_nm_utils_ascii_str_to_int64_do ("FF", 16, 0, 10000, -1, 0, 255); test_nm_utils_ascii_str_to_int64_do ("FF", 10, 0, 10000, -2, EINVAL, -2); test_nm_utils_ascii_str_to_int64_do ("9223372036854775807", 10, 0, G_MAXINT64, -2, 0, G_MAXINT64); test_nm_utils_ascii_str_to_int64_do ("7FFFFFFFFFFFFFFF", 16, 0, G_MAXINT64, -2, 0, G_MAXINT64); test_nm_utils_ascii_str_to_int64_do ("9223372036854775808", 10, 0, G_MAXINT64, -2, ERANGE, -2); test_nm_utils_ascii_str_to_int64_do ("-9223372036854775808", 10, G_MININT64, 0, -2, 0, G_MININT64); test_nm_utils_ascii_str_to_int64_do ("-9223372036854775808", 10, G_MININT64+1, 0, -2, ERANGE, -2); test_nm_utils_ascii_str_to_int64_do ("-9223372036854775809", 10, G_MININT64, 0, -2, ERANGE, -2); test_nm_utils_ascii_str_to_int64_do ("1.0", 10, 1, 1, -1, EINVAL, -1); test_nm_utils_ascii_str_to_int64_do ("1x0", 16, -10, 10, -100, EINVAL, -100); test_nm_utils_ascii_str_to_int64_do ("0", 16, -10, 10, -100, 0, 0); test_nm_utils_ascii_str_to_int64_do ("10001111", 2, -1000, 1000, -100000, 0, 0x8F); test_nm_utils_ascii_str_to_int64_do ("-10001111", 2, -1000, 1000, -100000, 0, -0x8F); test_nm_utils_ascii_str_to_int64_do ("1111111", 2, G_MININT64, G_MAXINT64, -1, 0, 0x7F); test_nm_utils_ascii_str_to_int64_do ("111111111111111", 2, G_MININT64, G_MAXINT64, -1, 0, 0x7FFF); test_nm_utils_ascii_str_to_int64_do ("11111111111111111111111111111111111111111111111", 2, G_MININT64, G_MAXINT64, -1, 0, 0x7FFFFFFFFFFF); test_nm_utils_ascii_str_to_int64_do ("111111111111111111111111111111111111111111111111111111111111111", 2, G_MININT64, G_MAXINT64, -1, 0, 0x7FFFFFFFFFFFFFFF); test_nm_utils_ascii_str_to_int64_do ("100000000000000000000000000000000000000000000000000000000000000", 2, G_MININT64, G_MAXINT64, -1, 0, 0x4000000000000000); test_nm_utils_ascii_str_to_int64_do ("1000000000000000000000000000000000000000000000000000000000000000", 2, G_MININT64, G_MAXINT64, -1, ERANGE, -1); test_nm_utils_ascii_str_to_int64_do ("-100000000000000000000000000000000000000000000000000000000000000", 2, G_MININT64, G_MAXINT64, -1, 0, -0x4000000000000000); test_nm_utils_ascii_str_to_int64_do ("111111111111111111111111111111111111111111111111111111111111111", 2, G_MININT64, G_MAXINT64, -1, 0, 0x7FFFFFFFFFFFFFFF); test_nm_utils_ascii_str_to_int64_do ("-100000000000000000000000000000000000000000000000000000000000000", 2, G_MININT64, G_MAXINT64, -1, 0, -0x4000000000000000); test_nm_utils_ascii_str_to_int64_do ("0x70", 10, G_MININT64, G_MAXINT64, -1, EINVAL, -1); test_nm_utils_ascii_str_to_int64_do ("4711", 0, G_MININT64, G_MAXINT64, -1, 0, 4711); test_nm_utils_ascii_str_to_int64_do ("04711", 0, G_MININT64, G_MAXINT64, -1, 0, 04711); test_nm_utils_ascii_str_to_int64_do ("0x4711", 0, G_MININT64, G_MAXINT64, -1, 0, 0x4711); test_nm_utils_ascii_str_to_int64_do ("080", 0, G_MININT64, G_MAXINT64, -1, EINVAL, -1); test_nm_utils_ascii_str_to_int64_do ("070", 0, G_MININT64, G_MAXINT64, -1, 0, 7*8); test_nm_utils_ascii_str_to_int64_do ("0x70", 0, G_MININT64, G_MAXINT64, -1, 0, 0x70); } /*****************************************************************************/ static void test_nm_utils_strstrdictkey (void) { #define _VALUES_STATIC(_v1, _v2) { .v1 = _v1, .v2 = _v2, .v_static = _nm_utils_strstrdictkey_static (_v1, _v2), } const struct { const char *v1; const char *v2; NMUtilsStrStrDictKey *v_static; } *val1, *val2, values[] = { { NULL, NULL }, { "", NULL }, { NULL, "" }, { "a", NULL }, { NULL, "a" }, _VALUES_STATIC ("", ""), _VALUES_STATIC ("a", ""), _VALUES_STATIC ("", "a"), _VALUES_STATIC ("a", "b"), }; guint i, j; for (i = 0; i < G_N_ELEMENTS (values); i++) { gs_free NMUtilsStrStrDictKey *key1 = NULL; val1 = &values[i]; key1 = _nm_utils_strstrdictkey_create (val1->v1, val1->v2); if (val1->v_static) { g_assert (_nm_utils_strstrdictkey_equal (key1, val1->v_static)); g_assert (_nm_utils_strstrdictkey_equal (val1->v_static, key1)); g_assert_cmpint (_nm_utils_strstrdictkey_hash (key1), ==, _nm_utils_strstrdictkey_hash (val1->v_static)); } for (j = 0; j < G_N_ELEMENTS (values); j++) { gs_free NMUtilsStrStrDictKey *key2 = NULL; val2 = &values[j]; key2 = _nm_utils_strstrdictkey_create (val2->v1, val2->v2); if (i != j) { g_assert (!_nm_utils_strstrdictkey_equal (key1, key2)); g_assert (!_nm_utils_strstrdictkey_equal (key2, key1)); } } } } /*****************************************************************************/ static guint _g_strv_length (gconstpointer arr) { return arr ? g_strv_length ((char **) arr) : 0; } static void test_nm_ptrarray_len (void) { #define _PTRARRAY_cmp(len, arr) \ G_STMT_START { \ g_assert_cmpint (len, ==, NM_PTRARRAY_LEN (arr)); \ g_assert_cmpint (len, ==, _g_strv_length (arr)); \ } G_STMT_END #define _PTRARRAY_LEN0(T) \ G_STMT_START { \ T **vnull = NULL; \ T *const*vnull1 = NULL; \ T *const*const vnull2 = NULL; \ T *v0[] = { NULL }; \ T *const*v01 = v0; \ T *const*const v02 = v0; \ T **const v03 = v0; \ \ _PTRARRAY_cmp (0, vnull); \ _PTRARRAY_cmp (0, vnull1); \ _PTRARRAY_cmp (0, vnull2); \ _PTRARRAY_cmp (0, v0); \ _PTRARRAY_cmp (0, v01); \ _PTRARRAY_cmp (0, v02); \ _PTRARRAY_cmp (0, v03); \ } G_STMT_END _PTRARRAY_LEN0 (char); _PTRARRAY_LEN0 (const char); _PTRARRAY_LEN0 (int); _PTRARRAY_LEN0 (const int); _PTRARRAY_LEN0 (void *); _PTRARRAY_LEN0 (void); _PTRARRAY_LEN0 (const void); #define _PTRARRAY_LENn(T) \ G_STMT_START { \ T x[5] = { 0 }; \ \ T *v1[] = { &x[0], NULL }; \ T *const*v11 = v1; \ T *const*const v12 = v1; \ T **const v13 = v1; \ \ T *v2[] = { &x[0], &x[1], NULL }; \ T *const*v21 = v2; \ T *const*const v22 = v2; \ T **const v23 = v2; \ \ _PTRARRAY_cmp (1, v1); \ _PTRARRAY_cmp (1, v11); \ _PTRARRAY_cmp (1, v12); \ _PTRARRAY_cmp (1, v13); \ \ _PTRARRAY_cmp (2, v2); \ _PTRARRAY_cmp (2, v21); \ _PTRARRAY_cmp (2, v22); \ _PTRARRAY_cmp (2, v23); \ } G_STMT_END _PTRARRAY_LENn (char); _PTRARRAY_LENn (const char); _PTRARRAY_LENn (int); _PTRARRAY_LENn (const int); _PTRARRAY_LENn (void *); } /*****************************************************************************/ static void test_nm_utils_dns_option_validate_do (char *option, gboolean ipv6, const NMUtilsDNSOptionDesc *descs, gboolean exp_result, char *exp_name, gboolean exp_value) { char *name; long value = 0; gboolean result; result = _nm_utils_dns_option_validate (option, &name, &value, ipv6, descs); g_assert (result == exp_result); g_assert_cmpstr (name, ==, exp_name); g_assert (value == exp_value); g_free (name); } static const NMUtilsDNSOptionDesc opt_descs[] = { /* name num ipv6 */ { "opt1", FALSE, FALSE }, { "opt2", TRUE, FALSE }, { "opt3", FALSE, TRUE }, { "opt4", TRUE, TRUE }, { NULL, FALSE, FALSE } }; static void test_nm_utils_dns_option_validate (void) { /* opt ipv6 descs result name value */ test_nm_utils_dns_option_validate_do ("", FALSE, NULL, FALSE, NULL, -1); test_nm_utils_dns_option_validate_do (":", FALSE, NULL, FALSE, NULL, -1); test_nm_utils_dns_option_validate_do (":1", FALSE, NULL, FALSE, NULL, -1); test_nm_utils_dns_option_validate_do (":val", FALSE, NULL, FALSE, NULL, -1); test_nm_utils_dns_option_validate_do ("opt", FALSE, NULL, TRUE, "opt", -1); test_nm_utils_dns_option_validate_do ("opt:", FALSE, NULL, FALSE, NULL, -1); test_nm_utils_dns_option_validate_do ("opt:12", FALSE, NULL, TRUE, "opt", 12); test_nm_utils_dns_option_validate_do ("opt:12 ", FALSE, NULL, FALSE, NULL, -1); test_nm_utils_dns_option_validate_do ("opt:val", FALSE, NULL, FALSE, NULL, -1); test_nm_utils_dns_option_validate_do ("opt:2val", FALSE, NULL, FALSE, NULL, -1); test_nm_utils_dns_option_validate_do ("opt:2:3", FALSE, NULL, FALSE, NULL, -1); test_nm_utils_dns_option_validate_do ("opt-6", FALSE, NULL, TRUE, "opt-6", -1); test_nm_utils_dns_option_validate_do ("opt1", FALSE, opt_descs, TRUE, "opt1", -1); test_nm_utils_dns_option_validate_do ("opt1", TRUE, opt_descs, TRUE, "opt1", -1); test_nm_utils_dns_option_validate_do ("opt1:3", FALSE, opt_descs, FALSE, NULL, -1); test_nm_utils_dns_option_validate_do ("opt2", FALSE, opt_descs, FALSE, NULL, -1); test_nm_utils_dns_option_validate_do ("opt2:5", FALSE, opt_descs, TRUE, "opt2", 5); test_nm_utils_dns_option_validate_do ("opt3", FALSE, opt_descs, FALSE, NULL, -1); test_nm_utils_dns_option_validate_do ("opt3", TRUE, opt_descs, TRUE, "opt3", -1); test_nm_utils_dns_option_validate_do ("opt4", FALSE, opt_descs, FALSE, NULL, -1); test_nm_utils_dns_option_validate_do ("opt4", TRUE, opt_descs, FALSE, NULL, -1); test_nm_utils_dns_option_validate_do ("opt4:40", FALSE, opt_descs, FALSE, NULL, -1); test_nm_utils_dns_option_validate_do ("opt4:40", TRUE, opt_descs, TRUE, "opt4", 40); } static void test_nm_utils_dns_option_find_idx (void) { GPtrArray *options; options = g_ptr_array_new (); g_ptr_array_add (options, "debug"); g_ptr_array_add (options, "timeout:5"); g_ptr_array_add (options, "edns0"); g_assert_cmpint (_nm_utils_dns_option_find_idx (options, "debug"), ==, 0); g_assert_cmpint (_nm_utils_dns_option_find_idx (options, "debug:1"), ==, 0); g_assert_cmpint (_nm_utils_dns_option_find_idx (options, "timeout"), ==, 1); g_assert_cmpint (_nm_utils_dns_option_find_idx (options, "timeout:5"), ==, 1); g_assert_cmpint (_nm_utils_dns_option_find_idx (options, "timeout:2"), ==, 1); g_assert_cmpint (_nm_utils_dns_option_find_idx (options, "edns0"), ==, 2); g_assert_cmpint (_nm_utils_dns_option_find_idx (options, "rotate"), ==, -1); g_assert_cmpint (_nm_utils_dns_option_find_idx (options, ""), ==, -1); g_ptr_array_free (options, TRUE); } /*****************************************************************************/ static void _json_config_check_valid (const char *conf, gboolean expected) { gs_free_error GError *error = NULL; gboolean res; res = nm_utils_is_json_object (conf, &error); g_assert_cmpint (res, ==, expected); g_assert (res || error); } static void test_nm_utils_check_valid_json (void) { _json_config_check_valid (NULL, FALSE); _json_config_check_valid ("", FALSE); #if WITH_JSON_VALIDATION _json_config_check_valid ("{ }", TRUE); _json_config_check_valid ("{ \"a\" : 1 }", TRUE); _json_config_check_valid ("{ \"a\" : }", FALSE); #else /* Without JSON library everything except empty string is considered valid */ _json_config_check_valid ("{ }", TRUE); _json_config_check_valid ("{'%!-a1} ", TRUE); _json_config_check_valid (" {'%!-a1}", TRUE); _json_config_check_valid ("{'%!-a1", FALSE); #endif } static void _team_config_equal_check (const char *conf1, const char *conf2, gboolean port_config, gboolean expected) { nm_auto_free_team_setting NMTeamSetting *team_a = NULL; nm_auto_free_team_setting NMTeamSetting *team_b = NULL; gboolean is_same; if (nmtst_get_rand_bool ()) NMTST_SWAP (conf1, conf2); if (!nm_streq0 (conf1, conf2)) { _team_config_equal_check (conf1, conf1, port_config, TRUE); _team_config_equal_check (conf2, conf2, port_config, TRUE); } team_a = nm_team_setting_new (port_config, conf1); team_b = nm_team_setting_new (port_config, conf2); is_same = (nm_team_setting_cmp (team_a, team_b, TRUE) == 0); g_assert_cmpint (is_same, ==, expected); if (nm_streq0 (conf1, conf2)) { g_assert_cmpint (nm_team_setting_cmp (team_a, team_b, FALSE), ==, 0); g_assert (expected); } else g_assert_cmpint (nm_team_setting_cmp (team_a, team_b, FALSE), !=, 0); } static void test_nm_utils_team_config_equal (void) { _team_config_equal_check ("", "", TRUE, TRUE); _team_config_equal_check ("", " ", TRUE, TRUE); _team_config_equal_check ("{}", "{ }", TRUE, TRUE); _team_config_equal_check ("{}", "{", TRUE, TRUE); _team_config_equal_check ("{ \"a\": 1 }", "{ \"a\": 1 }", TRUE, TRUE); _team_config_equal_check ("{ \"a\": 1 }", "{ \"a\": 1 }", TRUE, TRUE); /* team config */ _team_config_equal_check ("{ }", "{ \"runner\" : { \"name\" : \"random\"} }", FALSE, !WITH_JSON_VALIDATION); _team_config_equal_check ("{ \"runner\" : { \"name\" : \"roundrobin\"} }", "{ \"runner\" : { \"name\" : \"random\"} }", FALSE, !WITH_JSON_VALIDATION); _team_config_equal_check ("{ \"runner\" : { \"name\" : \"random\"} }", "{ \"runner\" : { \"name\" : \"random\"} }", FALSE, TRUE); _team_config_equal_check ("{ \"runner\" : { \"name\" : \"loadbalance\"} }", "{ \"runner\" : { \"name\" : \"loadbalance\"} }", FALSE, TRUE); _team_config_equal_check ("{ \"runner\" : { \"name\" : \"random\"}, \"ports\" : { \"eth0\" : {} } }", "{ \"runner\" : { \"name\" : \"random\"}, \"ports\" : { \"eth1\" : {} } }", FALSE, TRUE); _team_config_equal_check ("{ \"runner\" : { \"name\" : \"lacp\"} }", "{ \"runner\" : { \"name\" : \"lacp\", \"tx_hash\" : [ \"eth\", \"ipv4\", \"ipv6\" ] } }", FALSE, !WITH_JSON_VALIDATION); _team_config_equal_check ("{ \"runner\" : { \"name\" : \"roundrobin\"} }", "{ \"runner\" : { \"name\" : \"roundrobin\", \"tx_hash\" : [ \"eth\", \"ipv4\", \"ipv6\" ] } }", FALSE, !WITH_JSON_VALIDATION); _team_config_equal_check ("{ \"runner\" : { \"name\" : \"lacp\"} }", "{ \"runner\" : { \"name\" : \"lacp\", \"tx_hash\" : [ \"eth\" ] } }", FALSE, !WITH_JSON_VALIDATION); /* team port config */ _team_config_equal_check ("{ }", "{ \"link_watch\" : { \"name\" : \"ethtool\"} }", TRUE, !WITH_JSON_VALIDATION); _team_config_equal_check ("{ }", "{ \"link_watch\" : { \"name\" : \"arp_ping\"} }", TRUE, TRUE); _team_config_equal_check ("{ \"link_watch\" : { \"name\" : \"ethtool\"} }", "{ \"link_watch\" : { \"name\" : \"arp_ping\"} }", TRUE, !WITH_JSON_VALIDATION); _team_config_equal_check ("{ \"link_watch\" : { \"name\" : \"arp_ping\"} }", "{ \"link_watch\" : { \"name\" : \"arp_ping\"} }", TRUE, TRUE); _team_config_equal_check ("{ \"link_watch\" : { \"name\" : \"arp_ping\"}, \"ports\" : { \"eth0\" : {} } }", "{ \"link_watch\" : { \"name\" : \"arp_ping\"}, \"ports\" : { \"eth1\" : {} } }", TRUE, TRUE); } /*****************************************************************************/ enum TEST_IS_POWER_OF_TWP_ENUM_SIGNED { _DUMMY_1 = -1, }; enum TEST_IS_POWER_OF_TWP_ENUM_UNSIGNED { _DUMMY_2, }; enum TEST_IS_POWER_OF_TWP_ENUM_SIGNED_64 { _DUMMY_3 = (1LL << 40), }; enum TEST_IS_POWER_OF_TWP_ENUM_UNSIGNED_64 { _DUMMY_4a = -1, _DUMMY_4b = (1LL << 40), }; #define test_nm_utils_is_power_of_two_do(type, x, expect) \ G_STMT_START { \ typeof (x) x1 = (x); \ type x2 = (type) x1; \ \ g_assert_cmpint (expect, ==, nm_utils_is_power_of_two (x1)); \ if ( ((typeof (x1)) x2) == x1 \ && ((typeof (x2)) x1) == x2 \ && x2 > 0) { \ /* x2 equals @x, and is positive. Compare to @expect */ \ g_assert_cmpint (expect, ==, nm_utils_is_power_of_two (x2)); \ } else if (!(x2 > 0)) { \ /* a non positive value is always FALSE. */ \ g_assert_cmpint (FALSE, ==, nm_utils_is_power_of_two (x2)); \ } \ if (x2) { \ x2 = -x2; \ if (!(x2 > 0)) { \ /* for negative values, we return FALSE. */ \ g_assert_cmpint (FALSE, ==, nm_utils_is_power_of_two (x2)); \ } \ } \ } G_STMT_END static void test_nm_utils_is_power_of_two (void) { guint64 xyes, xno; int i, j; GRand *rand = nmtst_get_rand (); int numbits; for (i = -1; i < 64; i++) { /* find a (positive) x which is a power of two. */ if (i == -1) xyes = 0; else { xyes = (((guint64) 1) << i); g_assert (xyes != 0); } xno = xyes; if (xyes != 0) { again: /* Find another @xno, that is not a power of two. Do that, * by randomly setting bits. */ numbits = g_rand_int_range (rand, 1, 65); while (xno != ~((guint64) 0) && numbits > 0) { guint64 v = (((guint64) 1) << g_rand_int_range (rand, 0, 64)); if ((xno | v) != xno) { xno |= v; --numbits; } } if (xno == xyes) goto again; } for (j = 0; j < 2; j++) { gboolean expect = j == 0; guint64 x = expect ? xyes : xno; if (expect && xyes == 0) continue; /* check if @x is as @expect, when casted to a certain data type. */ test_nm_utils_is_power_of_two_do (gint8, x, expect); test_nm_utils_is_power_of_two_do (guint8, x, expect); test_nm_utils_is_power_of_two_do (gint16, x, expect); test_nm_utils_is_power_of_two_do (guint16, x, expect); test_nm_utils_is_power_of_two_do (gint32, x, expect); test_nm_utils_is_power_of_two_do (guint32, x, expect); test_nm_utils_is_power_of_two_do (gint64, x, expect); test_nm_utils_is_power_of_two_do (guint64, x, expect); test_nm_utils_is_power_of_two_do (char, x, expect); test_nm_utils_is_power_of_two_do (unsigned char, x, expect); test_nm_utils_is_power_of_two_do (signed char, x, expect); test_nm_utils_is_power_of_two_do (enum TEST_IS_POWER_OF_TWP_ENUM_SIGNED, x, expect); test_nm_utils_is_power_of_two_do (enum TEST_IS_POWER_OF_TWP_ENUM_UNSIGNED, x, expect); test_nm_utils_is_power_of_two_do (enum TEST_IS_POWER_OF_TWP_ENUM_SIGNED_64, x, expect); test_nm_utils_is_power_of_two_do (enum TEST_IS_POWER_OF_TWP_ENUM_UNSIGNED_64, x, expect); } } } /*****************************************************************************/ static int _test_find_binary_search_cmp (gconstpointer a, gconstpointer b, gpointer dummy) { int ia, ib; ia = GPOINTER_TO_INT (a); ib = GPOINTER_TO_INT (b); if (ia == ib) return 0; if (ia < ib) return -1; return 1; } static void _test_find_binary_search_do (const int *array, gsize len) { gsize i; gssize idx, idx_first, idx_last; gs_free gconstpointer *parray = g_new (gconstpointer, len); const int NEEDLE = 0; gconstpointer pneedle = GINT_TO_POINTER (NEEDLE); gssize expected_result; for (i = 0; i < len; i++) parray[i] = GINT_TO_POINTER (array[i]); expected_result = _nm_utils_ptrarray_find_first (parray, len, pneedle); idx = nm_utils_ptrarray_find_binary_search (parray, len, pneedle, _test_find_binary_search_cmp, NULL, &idx_first, &idx_last); if (expected_result >= 0) { g_assert_cmpint (expected_result, ==, idx); } else { gssize idx2 = ~idx; g_assert_cmpint (idx, <, 0); g_assert (idx2 >= 0); g_assert (idx2 <= len); g_assert (idx2 - 1 < 0 || _test_find_binary_search_cmp (parray[idx2 - 1], pneedle, NULL) < 0); g_assert (idx2 >= len || _test_find_binary_search_cmp (parray[idx2], pneedle, NULL) > 0); } g_assert_cmpint (idx, ==, idx_first); g_assert_cmpint (idx, ==, idx_last); for (i = 0; i < len; i++) { int cmp; cmp = _test_find_binary_search_cmp (parray[i], pneedle, NULL); if (cmp == 0) { g_assert (pneedle == parray[i]); g_assert (idx >= 0); g_assert (i == idx); } else { g_assert (pneedle != parray[i]); if (cmp < 0) { if (idx < 0) g_assert (i < ~idx); else g_assert (i < idx); } else { if (idx < 0) g_assert (i >= ~idx); else g_assert (i >= idx); } } } } static void _test_find_binary_search_do_uint32 (const int *int_array, gsize len) { gssize idx; const int OFFSET = 100; const int NEEDLE = 0 + OFFSET; gssize expected_result = -1; guint32 array[30]; g_assert (len <= G_N_ELEMENTS (array)); /* the test data has negative values. Shift them... */ for (idx = 0; idx < len; idx++) { int v = int_array[idx]; g_assert (v > -OFFSET); g_assert (v < OFFSET); g_assert (idx == 0 || v > int_array[idx - 1]); array[idx] = (guint32) (int_array[idx] + OFFSET); if (array[idx] == NEEDLE) expected_result = idx; } idx = nm_utils_array_find_binary_search (array, sizeof (guint32), len, &NEEDLE, nm_cmp_uint32_p_with_data, NULL); if (expected_result >= 0) g_assert_cmpint (expected_result, ==, idx); else { gssize idx2 = ~idx; g_assert_cmpint (idx, <, 0); g_assert (idx2 >= 0); g_assert (idx2 <= len); g_assert (idx2 - 1 < 0 || array[idx2 - 1] < NEEDLE); g_assert (idx2 >= len || array[idx2] > NEEDLE); } } #define test_find_binary_search_do(...) \ G_STMT_START { \ const int _array[] = { __VA_ARGS__ }; \ _test_find_binary_search_do (_array, G_N_ELEMENTS (_array)); \ _test_find_binary_search_do_uint32 (_array, G_N_ELEMENTS (_array)); \ } G_STMT_END static void test_nm_utils_ptrarray_find_binary_search (void) { test_find_binary_search_do ( 0); test_find_binary_search_do ( -1, 0); test_find_binary_search_do ( -2, -1, 0); test_find_binary_search_do (-3, -2, -1, 0); test_find_binary_search_do ( 0, 1); test_find_binary_search_do ( 0, 1, 2); test_find_binary_search_do ( -1, 0, 1, 2); test_find_binary_search_do ( -2, -1, 0, 1, 2); test_find_binary_search_do (-3, -2, -1, 0, 1, 2); test_find_binary_search_do (-3, -2, -1, 0, 1, 2); test_find_binary_search_do (-3, -2, -1, 0, 1, 2, 3); test_find_binary_search_do (-3, -2, -1, 0, 1, 2, 3, 4); test_find_binary_search_do ( -1); test_find_binary_search_do ( -2, -1); test_find_binary_search_do (-3, -2, -1); test_find_binary_search_do ( 1); test_find_binary_search_do ( 1, 2); test_find_binary_search_do ( -1, 1, 2); test_find_binary_search_do ( -2, -1, 1, 2); test_find_binary_search_do (-3, -2, -1, 1, 2); test_find_binary_search_do (-3, -2, -1, 1, 2); test_find_binary_search_do (-3, -2, -1, 1, 2, 3); test_find_binary_search_do (-3, -2, -1, 1, 2, 3, 4); } /*****************************************************************************/ #define BIN_SEARCH_W_DUPS_LEN 100 #define BIN_SEARCH_W_DUPS_JITTER 10 static int _test_bin_search2_cmp (gconstpointer pa, gconstpointer pb, gpointer user_data) { int a = GPOINTER_TO_INT (pa); int b = GPOINTER_TO_INT (pb); g_assert (a >= 0 && a <= BIN_SEARCH_W_DUPS_LEN + BIN_SEARCH_W_DUPS_JITTER); g_assert (b >= 0 && b <= BIN_SEARCH_W_DUPS_LEN + BIN_SEARCH_W_DUPS_JITTER); NM_CMP_DIRECT (a, b); return 0; } static int _test_bin_search2_cmp_p (gconstpointer pa, gconstpointer pb, gpointer user_data) { return _test_bin_search2_cmp (*((gpointer *) pa), *((gpointer *) pb), NULL); } static void test_nm_utils_ptrarray_find_binary_search_with_duplicates (void) { gssize idx, idx2, idx_first2, idx_first, idx_last; int i_test, i_len, i; gssize j; gconstpointer arr[BIN_SEARCH_W_DUPS_LEN]; const int N_TEST = 10; for (i_test = 0; i_test < N_TEST; i_test++) { for (i_len = 0; i_len < BIN_SEARCH_W_DUPS_LEN; i_len++) { /* fill with random numbers... surely there are some duplicates * there... or maybe even there are none... */ for (i = 0; i < i_len; i++) arr[i] = GINT_TO_POINTER (nmtst_get_rand_uint32 () % (i_len + BIN_SEARCH_W_DUPS_JITTER)); g_qsort_with_data (arr, i_len, sizeof (gpointer), _test_bin_search2_cmp_p, NULL); for (i = 0; i < i_len + BIN_SEARCH_W_DUPS_JITTER; i++) { gconstpointer p = GINT_TO_POINTER (i); idx = nm_utils_ptrarray_find_binary_search (arr, i_len, p, _test_bin_search2_cmp, NULL, &idx_first, &idx_last); idx_first2 = _nm_utils_ptrarray_find_first (arr, i_len, p); idx2 = nm_utils_array_find_binary_search (arr, sizeof (gpointer), i_len, &p, _test_bin_search2_cmp_p, NULL); g_assert_cmpint (idx, ==, idx2); if (idx_first2 < 0) { g_assert_cmpint (idx, <, 0); g_assert_cmpint (idx, ==, idx_first); g_assert_cmpint (idx, ==, idx_last); idx = ~idx; g_assert_cmpint (idx, >=, 0); g_assert_cmpint (idx, <=, i_len); if (i_len == 0) g_assert_cmpint (idx, ==, 0); else { g_assert (idx == i_len || GPOINTER_TO_INT (arr[idx]) > i); g_assert (idx == 0 || GPOINTER_TO_INT (arr[idx - 1]) < i); } } else { g_assert_cmpint (idx_first, ==, idx_first2); g_assert_cmpint (idx_first, >=, 0); g_assert_cmpint (idx_last, <, i_len); g_assert_cmpint (idx_first, <=, idx_last); g_assert_cmpint (idx, >=, idx_first); g_assert_cmpint (idx, <=, idx_last); for (j = idx_first; j < idx_last; j++) g_assert (GPOINTER_TO_INT (arr[j]) == i); g_assert (idx_first == 0 || GPOINTER_TO_INT (arr[idx_first - 1]) < i); g_assert (idx_last == i_len - 1 || GPOINTER_TO_INT (arr[idx_last + 1]) > i); } } } } } /*****************************************************************************/ static void _test_nm_utils_enum_to_str_do_full (GType type, int flags, const char *exp_str, const NMUtilsEnumValueInfo *value_infos) { gs_free char *str = NULL; int flags2; gs_free char *err_token = NULL; gboolean result; g_assert (exp_str); str = _nm_utils_enum_to_str_full (type, flags, ", ", value_infos); g_assert_cmpstr (str, ==, exp_str); if (!value_infos) { gs_free char *str2 = NULL; str2 = nm_utils_enum_to_str (type, flags); g_assert_cmpstr (str2, ==, exp_str); } result = _nm_utils_enum_from_str_full (type, str, &flags2, &err_token, value_infos); g_assert (result == TRUE); g_assert_cmpint (flags2, ==, flags); g_assert_cmpstr (err_token, ==, NULL); } #define _test_nm_utils_enum_to_str_do(...) _test_nm_utils_enum_to_str_do_full (__VA_ARGS__, NULL) static void _test_nm_utils_enum_from_str_do_full (GType type, const char *str, gboolean exp_result, int exp_flags, const char *exp_err_token, const NMUtilsEnumValueInfo *value_infos) { int flags; gs_free char *err_token = NULL; gboolean result; result = _nm_utils_enum_from_str_full (type, str, &flags, &err_token, value_infos); g_assert (result == exp_result); g_assert_cmpint (flags, ==, exp_flags); g_assert_cmpstr (err_token, ==, exp_err_token); if (!value_infos) { int flags2; gs_free char *err_token2 = NULL; gboolean result2; result2 = nm_utils_enum_from_str (type, str, &flags2, &err_token2); g_assert (result2 == exp_result); g_assert_cmpint (flags2, ==, exp_flags); g_assert_cmpstr (err_token2, ==, exp_err_token); } if (result) { int flags2; gs_free char *str2 = NULL; gs_free char *err_token2 = NULL; str2 = _nm_utils_enum_to_str_full (type, flags, ", ", value_infos); g_assert (str2); result = _nm_utils_enum_from_str_full (type, str2, &flags2, &err_token2, value_infos); g_assert (result == TRUE); g_assert_cmpint (flags2, ==, flags); g_assert_cmpstr (err_token, ==, NULL); } } #define _test_nm_utils_enum_from_str_do(...) _test_nm_utils_enum_from_str_do_full(__VA_ARGS__, NULL) static void _test_nm_utils_enum_get_values_do (GType type, int from, int to, const char *exp_str) { gs_free const char **strv = NULL; gs_free char *str = NULL; g_assert (exp_str); strv = nm_utils_enum_get_values (type, from, to); g_assert (strv); str = g_strjoinv (",", (char **) strv); g_assert_cmpstr (str, ==, exp_str); } static void test_nm_utils_enum (void) { GType bool_enum = nm_test_general_bool_enum_get_type(); GType meta_flags = nm_test_general_meta_flags_get_type(); GType color_flags = nm_test_general_color_flags_get_type(); static const NMUtilsEnumValueInfo color_value_infos[] = { { .nick = "nick-4d", .value = 0x4D, }, { .nick = "nick-5", .value = 5, }, { .nick = "nick-red", .value = NM_TEST_GENERAL_COLOR_FLAGS_RED, }, { 0 }, }; _test_nm_utils_enum_to_str_do (bool_enum, NM_TEST_GENERAL_BOOL_ENUM_YES, "yes"); _test_nm_utils_enum_to_str_do (bool_enum, NM_TEST_GENERAL_BOOL_ENUM_UNKNOWN, "unknown"); _test_nm_utils_enum_to_str_do (bool_enum, NM_TEST_GENERAL_BOOL_ENUM_INVALID, "4"); _test_nm_utils_enum_to_str_do (bool_enum, NM_TEST_GENERAL_BOOL_ENUM_67, "67"); _test_nm_utils_enum_to_str_do (bool_enum, NM_TEST_GENERAL_BOOL_ENUM_46, "64"); _test_nm_utils_enum_to_str_do (meta_flags, NM_TEST_GENERAL_META_FLAGS_NONE, "none"); _test_nm_utils_enum_to_str_do (meta_flags, NM_TEST_GENERAL_META_FLAGS_BAZ, "baz"); _test_nm_utils_enum_to_str_do (meta_flags, NM_TEST_GENERAL_META_FLAGS_FOO | NM_TEST_GENERAL_META_FLAGS_BAR | NM_TEST_GENERAL_META_FLAGS_BAZ, "foo, bar, baz"); _test_nm_utils_enum_to_str_do (meta_flags, 0xFF, "foo, bar, baz, 0xf8"); _test_nm_utils_enum_to_str_do (meta_flags, NM_TEST_GENERAL_META_FLAGS_0x8, "0x8"); _test_nm_utils_enum_to_str_do (meta_flags, NM_TEST_GENERAL_META_FLAGS_0x4, "0x10"); _test_nm_utils_enum_to_str_do (color_flags, NM_TEST_GENERAL_COLOR_FLAGS_RED, "red"); _test_nm_utils_enum_to_str_do (color_flags, NM_TEST_GENERAL_COLOR_FLAGS_WHITE, "0x1"); _test_nm_utils_enum_to_str_do (color_flags, NM_TEST_GENERAL_COLOR_FLAGS_RED | NM_TEST_GENERAL_COLOR_FLAGS_GREEN, "red, green"); _test_nm_utils_enum_to_str_do_full (color_flags, NM_TEST_GENERAL_COLOR_FLAGS_RED | NM_TEST_GENERAL_COLOR_FLAGS_GREEN, "nick-red, green", color_value_infos); _test_nm_utils_enum_to_str_do_full (color_flags, 0x4D | NM_TEST_GENERAL_COLOR_FLAGS_RED | NM_TEST_GENERAL_COLOR_FLAGS_GREEN, "nick-4d", color_value_infos); _test_nm_utils_enum_to_str_do_full (color_flags, 5 | NM_TEST_GENERAL_COLOR_FLAGS_GREEN, "nick-5, green", color_value_infos); _test_nm_utils_enum_from_str_do (bool_enum, "", FALSE, 0, NULL); _test_nm_utils_enum_from_str_do (bool_enum, " ", FALSE, 0, NULL); _test_nm_utils_enum_from_str_do (bool_enum, "invalid", FALSE, 0, "invalid"); _test_nm_utils_enum_from_str_do (bool_enum, "yes", TRUE, NM_TEST_GENERAL_BOOL_ENUM_YES, NULL); _test_nm_utils_enum_from_str_do (bool_enum, "no", TRUE, NM_TEST_GENERAL_BOOL_ENUM_NO, NULL); _test_nm_utils_enum_from_str_do (bool_enum, "yes,no", FALSE, 0, "yes,no"); _test_nm_utils_enum_from_str_do (meta_flags, "", TRUE, 0, NULL); _test_nm_utils_enum_from_str_do (meta_flags, " ", TRUE, 0, NULL); _test_nm_utils_enum_from_str_do (meta_flags, "foo", TRUE, NM_TEST_GENERAL_META_FLAGS_FOO, NULL); _test_nm_utils_enum_from_str_do (meta_flags, "foo,baz", TRUE, NM_TEST_GENERAL_META_FLAGS_FOO | NM_TEST_GENERAL_META_FLAGS_BAZ, NULL); _test_nm_utils_enum_from_str_do (meta_flags, "foo, baz", TRUE, NM_TEST_GENERAL_META_FLAGS_FOO | NM_TEST_GENERAL_META_FLAGS_BAZ, NULL); _test_nm_utils_enum_from_str_do (meta_flags, "foo,,bar", TRUE, NM_TEST_GENERAL_META_FLAGS_FOO | NM_TEST_GENERAL_META_FLAGS_BAR, NULL); _test_nm_utils_enum_from_str_do (meta_flags, "foo,baz,quux,bar", FALSE, 0, "quux"); _test_nm_utils_enum_from_str_do (meta_flags, "foo,0x6", TRUE, NM_TEST_GENERAL_META_FLAGS_FOO | 0x6, NULL); _test_nm_utils_enum_from_str_do (meta_flags, "0x30,0x08,foo", TRUE, 0x39, NULL); _test_nm_utils_enum_from_str_do (color_flags, "green", TRUE, NM_TEST_GENERAL_COLOR_FLAGS_GREEN, NULL); _test_nm_utils_enum_from_str_do (color_flags, "blue,red", TRUE, NM_TEST_GENERAL_COLOR_FLAGS_BLUE | NM_TEST_GENERAL_COLOR_FLAGS_RED, NULL); _test_nm_utils_enum_from_str_do (color_flags, "blue,white", FALSE, 0, "white"); _test_nm_utils_enum_from_str_do_full (color_flags, "nick-red", TRUE, NM_TEST_GENERAL_COLOR_FLAGS_RED, NULL, color_value_infos); _test_nm_utils_enum_from_str_do_full (color_flags, "0x4D", TRUE, 0x4D, NULL, color_value_infos); _test_nm_utils_enum_from_str_do_full (color_flags, "green,nick-4d", TRUE, 0x4D | NM_TEST_GENERAL_COLOR_FLAGS_GREEN, NULL, color_value_infos); _test_nm_utils_enum_from_str_do_full (color_flags, "nick-4d,nick-red,nick-5,green,nick-red", TRUE, 0x4D | NM_TEST_GENERAL_COLOR_FLAGS_GREEN, NULL, color_value_infos); _test_nm_utils_enum_get_values_do (bool_enum, 0, G_MAXINT, "no,yes,maybe,unknown,67,64"); _test_nm_utils_enum_get_values_do (bool_enum, NM_TEST_GENERAL_BOOL_ENUM_YES, NM_TEST_GENERAL_BOOL_ENUM_MAYBE, "yes,maybe"); _test_nm_utils_enum_get_values_do (meta_flags, 0, G_MAXINT, "none,foo,bar,baz,0x8,0x10"); _test_nm_utils_enum_get_values_do (color_flags, 0, G_MAXINT, "blue,red,green"); } /*****************************************************************************/ static void _do_test_utils_str_utf8safe_unescape (const char *str, const char *expected, gsize expected_len) { gsize l; const char *s; gs_free gpointer buf_free_1 = NULL; gs_free char *str_free_1 = NULL; s = nm_utils_buf_utf8safe_unescape (str, &l, &buf_free_1); g_assert_cmpint (expected_len, ==, l); g_assert_cmpstr (s, ==, expected); if (str == NULL) { g_assert (!s); g_assert (!buf_free_1); g_assert_cmpint (l, ==, 0); } else { g_assert (s); if (!strchr (str, '\\')) { g_assert (!buf_free_1); g_assert (s == str); g_assert_cmpint (l, ==, strlen (str)); } else { g_assert (buf_free_1); g_assert (s == buf_free_1); g_assert (memcmp (s, expected, expected_len) == 0); } } if ( expected && l == strlen (expected)) { /* there are no embeeded NULs. Check that nm_utils_str_utf8safe_unescape() yields the same result. */ s = nm_utils_str_utf8safe_unescape (str, &str_free_1); g_assert_cmpstr (s, ==, expected); if (strchr (str, '\\')) { g_assert (str_free_1 != str); g_assert (s == str_free_1); } else g_assert (s == str); } } #define do_test_utils_str_utf8safe_unescape(str, expected) \ _do_test_utils_str_utf8safe_unescape (""str"", expected, NM_STRLEN (expected)) static void _do_test_utils_str_utf8safe (const char *str, gsize str_len, const char *expected, NMUtilsStrUtf8SafeFlags flags) { const char *str_safe; const char *buf_safe; const char *s; gs_free char *str_free_1 = NULL; gs_free char *str_free_2 = NULL; gs_free char *str_free_3 = NULL; gs_free char *str_free_4 = NULL; gs_free char *str_free_5 = NULL; gs_free char *str_free_6 = NULL; gs_free char *str_free_7 = NULL; gs_free char *str_free_8 = NULL; gboolean str_has_nul = FALSE; buf_safe = nm_utils_buf_utf8safe_escape (str, str_len, flags, &str_free_1); str_safe = nm_utils_str_utf8safe_escape (str, flags, &str_free_2); if (str_len == 0) { g_assert (buf_safe == NULL); g_assert (str_free_1 == NULL); g_assert (str_safe == str); g_assert (str == NULL || str[0] == '\0'); g_assert (str_free_2 == NULL); } else if (str_len == strlen (str)) { g_assert (buf_safe); g_assert_cmpstr (buf_safe, ==, str_safe); /* nm_utils_buf_utf8safe_escape() can only return a pointer equal to the input string, * if and only if str_len is negative. Otherwise, the input str won't be NUL terminated * and cannot be returned. */ g_assert (buf_safe != str); g_assert (buf_safe == str_free_1); } else str_has_nul = TRUE; str_free_3 = nm_utils_str_utf8safe_escape_cp (str, flags); g_assert_cmpstr (str_free_3, ==, str_safe); g_assert ((!str && !str_free_3) || (str != str_free_3)); if (str_len > 0) _do_test_utils_str_utf8safe_unescape (buf_safe, str, str_len); if (expected == NULL) { g_assert (!str_has_nul); g_assert (str_safe == str); g_assert (!str_free_2); if (str) { g_assert (!strchr (str, '\\')); g_assert (g_utf8_validate (str, -1, NULL)); } g_assert (str == nm_utils_str_utf8safe_unescape (str_safe, &str_free_4)); g_assert (!str_free_4); str_free_5 = nm_utils_str_utf8safe_unescape_cp (str_safe); if (str) { g_assert (str_free_5 != str); g_assert_cmpstr (str_free_5, ==, str); } else g_assert (!str_free_5); return; } if (!str_has_nul) { g_assert (str); g_assert (str_safe != str); g_assert (str_safe == str_free_2); g_assert ( strchr (str, '\\') || !g_utf8_validate (str, -1, NULL) || ( NM_FLAGS_HAS (flags, NM_UTILS_STR_UTF8_SAFE_FLAG_ESCAPE_NON_ASCII) && NM_STRCHAR_ANY (str, ch, (guchar) ch >= 127)) || ( NM_FLAGS_HAS (flags, NM_UTILS_STR_UTF8_SAFE_FLAG_ESCAPE_CTRL) && NM_STRCHAR_ANY (str, ch, (guchar) ch < ' '))); g_assert (g_utf8_validate (str_safe, -1, NULL)); str_free_6 = g_strcompress (str_safe); g_assert_cmpstr (str, ==, str_free_6); str_free_7 = nm_utils_str_utf8safe_unescape_cp (str_safe); g_assert (str_free_7 != str); g_assert_cmpstr (str_free_7, ==, str); s = nm_utils_str_utf8safe_unescape (str_safe, &str_free_8); g_assert (str_free_8 != str); g_assert (s == str_free_8); g_assert_cmpstr (str_free_8, ==, str); g_assert_cmpstr (str_safe, ==, expected); return; } g_assert_cmpstr (buf_safe, ==, expected); } #define do_test_utils_str_utf8safe(str, expected, flags) \ _do_test_utils_str_utf8safe (""str"", NM_STRLEN (str), expected, flags) static void test_utils_str_utf8safe (void) { _do_test_utils_str_utf8safe (NULL, 0, NULL, NM_UTILS_STR_UTF8_SAFE_FLAG_NONE); do_test_utils_str_utf8safe ("", NULL, NM_UTILS_STR_UTF8_SAFE_FLAG_NONE); do_test_utils_str_utf8safe ("\\", "\\\\", NM_UTILS_STR_UTF8_SAFE_FLAG_NONE); do_test_utils_str_utf8safe ("\\a", "\\\\a", NM_UTILS_STR_UTF8_SAFE_FLAG_NONE); do_test_utils_str_utf8safe ("\314", "\\314", NM_UTILS_STR_UTF8_SAFE_FLAG_NONE); do_test_utils_str_utf8safe ("\314\315x\315\315x", "\\314\\315x\\315\\315x", NM_UTILS_STR_UTF8_SAFE_FLAG_NONE); do_test_utils_str_utf8safe ("\314\315xx", "\\314\\315xx", NM_UTILS_STR_UTF8_SAFE_FLAG_NONE); do_test_utils_str_utf8safe ("\314xx", "\\314xx", NM_UTILS_STR_UTF8_SAFE_FLAG_NONE); do_test_utils_str_utf8safe ("\xa0", "\\240", NM_UTILS_STR_UTF8_SAFE_FLAG_NONE); do_test_utils_str_utf8safe ("\xe2\x91\xa0", NULL, NM_UTILS_STR_UTF8_SAFE_FLAG_NONE); do_test_utils_str_utf8safe ("\xe2\xe2\x91\xa0", "\\342\xe2\x91\xa0", NM_UTILS_STR_UTF8_SAFE_FLAG_NONE); do_test_utils_str_utf8safe ("\xe2\xe2\x91\xa0\xa0", "\\342\xe2\x91\xa0\\240", NM_UTILS_STR_UTF8_SAFE_FLAG_NONE); do_test_utils_str_utf8safe ("a", NULL, NM_UTILS_STR_UTF8_SAFE_FLAG_NONE); do_test_utils_str_utf8safe ("ab", NULL, NM_UTILS_STR_UTF8_SAFE_FLAG_NONE); do_test_utils_str_utf8safe ("ab\314", "ab\\314", NM_UTILS_STR_UTF8_SAFE_FLAG_NONE); do_test_utils_str_utf8safe ("ab\314adsf", "ab\\314adsf", NM_UTILS_STR_UTF8_SAFE_FLAG_NONE); do_test_utils_str_utf8safe ("abadsf", NULL, NM_UTILS_STR_UTF8_SAFE_FLAG_NONE); do_test_utils_str_utf8safe ("abäb", NULL, NM_UTILS_STR_UTF8_SAFE_FLAG_NONE); do_test_utils_str_utf8safe ("x\xa0", "x\\240", NM_UTILS_STR_UTF8_SAFE_FLAG_NONE); do_test_utils_str_utf8safe ("Ä\304ab\\äb", "Ä\\304ab\\\\äb", NM_UTILS_STR_UTF8_SAFE_FLAG_NONE); do_test_utils_str_utf8safe ("Äab\\äb", "Äab\\\\äb", NM_UTILS_STR_UTF8_SAFE_FLAG_NONE); do_test_utils_str_utf8safe ("ÄÄab\\äb", "ÄÄab\\\\äb", NM_UTILS_STR_UTF8_SAFE_FLAG_NONE); do_test_utils_str_utf8safe ("㈞abä㈞b", NULL, NM_UTILS_STR_UTF8_SAFE_FLAG_NONE); do_test_utils_str_utf8safe ("abäb", "ab\\303\\244b", NM_UTILS_STR_UTF8_SAFE_FLAG_ESCAPE_NON_ASCII); do_test_utils_str_utf8safe ("ab\ab", "ab\\007b", NM_UTILS_STR_UTF8_SAFE_FLAG_ESCAPE_CTRL); do_test_utils_str_utf8safe ("\0", "\\000", NM_UTILS_STR_UTF8_SAFE_FLAG_NONE); do_test_utils_str_utf8safe ("\0a\0", "\\000a\\000", NM_UTILS_STR_UTF8_SAFE_FLAG_NONE); do_test_utils_str_utf8safe ("\\\0", "\\\\\\000", NM_UTILS_STR_UTF8_SAFE_FLAG_NONE); do_test_utils_str_utf8safe ("\n\0", "\n\\000", NM_UTILS_STR_UTF8_SAFE_FLAG_NONE); do_test_utils_str_utf8safe ("\n\0", "\\012\\000", NM_UTILS_STR_UTF8_SAFE_FLAG_ESCAPE_CTRL); do_test_utils_str_utf8safe_unescape ("\n\\0", "\n\0"); do_test_utils_str_utf8safe_unescape ("\n\\01", "\n\01"); do_test_utils_str_utf8safe_unescape ("\n\\012", "\n\012"); do_test_utils_str_utf8safe_unescape ("\n\\.", "\n."); do_test_utils_str_utf8safe_unescape ("\\n\\.3\\r", "\n.3\r"); } /*****************************************************************************/ static int _test_nm_in_set_get (int *call_counter, gboolean allow_called, int value) { g_assert (call_counter); *call_counter += 1; if (!allow_called) g_assert_not_reached (); return value; } static void _test_nm_in_set_assert (int *call_counter, int expected) { g_assert (call_counter); g_assert_cmpint (expected, ==, *call_counter); *call_counter = 0; } static void test_nm_in_set (void) { int call_counter = 0; #define G(x) _test_nm_in_set_get (&call_counter, TRUE, x) #define N(x) _test_nm_in_set_get (&call_counter, FALSE, x) #define _ASSERT(expected, expr) \ G_STMT_START { \ _test_nm_in_set_assert (&call_counter, 0); \ g_assert (expr); \ _test_nm_in_set_assert (&call_counter, (expected)); \ } G_STMT_END _ASSERT (1, !NM_IN_SET (-1, G( 1))); _ASSERT (1, NM_IN_SET (-1, G(-1))); _ASSERT (2, !NM_IN_SET (-1, G( 1), G( 2))); _ASSERT (1, NM_IN_SET (-1, G(-1), N( 2))); _ASSERT (2, NM_IN_SET (-1, G( 1), G(-1))); _ASSERT (1, NM_IN_SET (-1, G(-1), N(-1))); _ASSERT (3, !NM_IN_SET (-1, G( 1), G( 2), G( 3))); _ASSERT (1, NM_IN_SET (-1, G(-1), N( 2), N( 3))); _ASSERT (2, NM_IN_SET (-1, G( 1), G(-1), N( 3))); _ASSERT (3, NM_IN_SET (-1, G( 1), G( 2), G(-1))); _ASSERT (2, NM_IN_SET (-1, G( 1), G(-1), N(-1))); _ASSERT (1, NM_IN_SET (-1, G(-1), N( 2), N(-1))); _ASSERT (1, NM_IN_SET (-1, G(-1), N(-1), N( 3))); _ASSERT (1, NM_IN_SET (-1, G(-1), N(-1), N(-1))); _ASSERT (4, !NM_IN_SET (-1, G( 1), G( 2), G( 3), G( 4))); _ASSERT (1, NM_IN_SET (-1, G(-1), N( 2), N( 3), N( 4))); _ASSERT (2, NM_IN_SET (-1, G( 1), G(-1), N( 3), N( 4))); _ASSERT (3, NM_IN_SET (-1, G( 1), G( 2), G(-1), N( 4))); _ASSERT (4, NM_IN_SET (-1, G( 1), G( 2), G( 3), G(-1))); _ASSERT (4, NM_IN_SET (-1, G( 1), G( 2), G( 3), G(-1), G( 5))); _ASSERT (5, NM_IN_SET (-1, G( 1), G( 2), G( 3), G( 4), G(-1))); _ASSERT (6, NM_IN_SET (-1, G( 1), G( 2), G( 3), G( 4), G( 5), G( -1))); _ASSERT (1, !NM_IN_SET_SE (-1, G( 1))); _ASSERT (1, NM_IN_SET_SE (-1, G(-1))); _ASSERT (2, !NM_IN_SET_SE (-1, G( 1), G( 2))); _ASSERT (2, NM_IN_SET_SE (-1, G(-1), G( 2))); _ASSERT (2, NM_IN_SET_SE (-1, G( 1), G(-1))); _ASSERT (2, NM_IN_SET_SE (-1, G(-1), G(-1))); _ASSERT (3, !NM_IN_SET_SE (-1, G( 1), G( 2), G( 3))); _ASSERT (3, NM_IN_SET_SE (-1, G(-1), G( 2), G( 3))); _ASSERT (3, NM_IN_SET_SE (-1, G( 1), G(-1), G( 3))); _ASSERT (3, NM_IN_SET_SE (-1, G( 1), G( 2), G(-1))); _ASSERT (3, NM_IN_SET_SE (-1, G( 1), G(-1), G(-1))); _ASSERT (3, NM_IN_SET_SE (-1, G(-1), G( 2), G(-1))); _ASSERT (3, NM_IN_SET_SE (-1, G(-1), G(-1), G( 3))); _ASSERT (3, NM_IN_SET_SE (-1, G(-1), G(-1), G(-1))); _ASSERT (4, !NM_IN_SET_SE (-1, G( 1), G( 2), G( 3), G( 4))); _ASSERT (4, NM_IN_SET_SE (-1, G(-1), G( 2), G( 3), G( 4))); _ASSERT (4, NM_IN_SET_SE (-1, G( 1), G(-1), G( 3), G( 4))); _ASSERT (4, NM_IN_SET_SE (-1, G( 1), G( 2), G(-1), G( 4))); _ASSERT (4, NM_IN_SET_SE (-1, G( 1), G( 2), G( 3), G(-1))); _ASSERT (5, NM_IN_SET_SE (-1, G( 1), G( 2), G( 3), G(-1), G( 5))); _ASSERT (6, NM_IN_SET_SE (-1, G( 1), G( 2), G( 3), G( 4), G( 5), G(-1))); (void) NM_IN_SET ("a", "1", "2", "3", "4", "5", "6", "7", "8", "9", "10", "11", "12", "13", "14", "15", "16"); #undef G #undef N #undef _ASSERT } /*****************************************************************************/ static const char * _test_nm_in_set_getstr (int *call_counter, gboolean allow_called, const char *value) { g_assert (call_counter); *call_counter += 1; if (!allow_called) g_assert_not_reached (); return value; } static void test_nm_in_strset (void) { int call_counter = 0; #define G(x) _test_nm_in_set_getstr (&call_counter, TRUE, x) #define N(x) _test_nm_in_set_getstr (&call_counter, FALSE, x) #define _ASSERT(expected, expr) \ G_STMT_START { \ _test_nm_in_set_assert (&call_counter, 0); \ g_assert (expr); \ _test_nm_in_set_assert (&call_counter, (expected)); \ } G_STMT_END _ASSERT (1, NM_IN_STRSET (NULL, G(NULL))); _ASSERT (1, !NM_IN_STRSET ("a", G(NULL))); _ASSERT (1, !NM_IN_STRSET (NULL, G("a"))); _ASSERT (1, NM_IN_STRSET_SE (NULL, G(NULL))); _ASSERT (1, !NM_IN_STRSET_SE ("a", G(NULL))); _ASSERT (1, !NM_IN_STRSET_SE (NULL, G("a"))); _ASSERT (1, NM_IN_STRSET (NULL, G(NULL), N(NULL))); _ASSERT (2, !NM_IN_STRSET ("a", G(NULL), G(NULL))); _ASSERT (2, NM_IN_STRSET (NULL, G("a"), G(NULL))); _ASSERT (1, NM_IN_STRSET (NULL, G(NULL), N("a"))); _ASSERT (2, NM_IN_STRSET ("a", G(NULL), G("a"))); _ASSERT (2, !NM_IN_STRSET (NULL, G("a"), G("a"))); _ASSERT (1, NM_IN_STRSET (NULL, G(NULL), N("b"))); _ASSERT (2, !NM_IN_STRSET ("a", G(NULL), G("b"))); _ASSERT (2, !NM_IN_STRSET (NULL, G("a"), G("b"))); _ASSERT (2, NM_IN_STRSET_SE (NULL, G(NULL), G(NULL))); _ASSERT (2, !NM_IN_STRSET_SE ("a", G(NULL), G(NULL))); _ASSERT (2, NM_IN_STRSET_SE (NULL, G("a"), G(NULL))); _ASSERT (2, NM_IN_STRSET_SE (NULL, G(NULL), G("a"))); _ASSERT (2, NM_IN_STRSET_SE ("a", G(NULL), G("a"))); _ASSERT (2, !NM_IN_STRSET_SE (NULL, G("a"), G("a"))); _ASSERT (2, NM_IN_STRSET_SE (NULL, G(NULL), G("b"))); _ASSERT (2, !NM_IN_STRSET_SE ("a", G(NULL), G("b"))); _ASSERT (2, !NM_IN_STRSET_SE (NULL, G("a"), G("b"))); _ASSERT (1, NM_IN_STRSET (NULL, G(NULL), N(NULL), N(NULL))); _ASSERT (3, !NM_IN_STRSET ("a", G(NULL), G(NULL), G(NULL))); _ASSERT (2, NM_IN_STRSET (NULL, G("a"), G(NULL), N(NULL))); _ASSERT (1, NM_IN_STRSET (NULL, G(NULL), N("a"), N(NULL))); _ASSERT (2, NM_IN_STRSET ("a", G(NULL), G("a"), N(NULL))); _ASSERT (3, NM_IN_STRSET (NULL, G("a"), G("a"), G(NULL))); _ASSERT (1, NM_IN_STRSET (NULL, G(NULL), N("b"), N(NULL))); _ASSERT (3, !NM_IN_STRSET ("a", G(NULL), G("b"), G(NULL))); _ASSERT (3, NM_IN_STRSET (NULL, G("a"), G("b"), G(NULL))); _ASSERT (1, NM_IN_STRSET (NULL, G(NULL), N(NULL), N("a"))); _ASSERT (3, NM_IN_STRSET ("a", G(NULL), G(NULL), G("a"))); _ASSERT (2, NM_IN_STRSET (NULL, G("a"), G(NULL), N("a"))); _ASSERT (1, NM_IN_STRSET (NULL, G(NULL), N("a"), N("a"))); _ASSERT (2, NM_IN_STRSET ("a", G(NULL), G("a"), N("a"))); _ASSERT (3, !NM_IN_STRSET (NULL, G("a"), G("a"), G("a"))); _ASSERT (1, NM_IN_STRSET (NULL, G(NULL), N("b"), N("a"))); _ASSERT (3, NM_IN_STRSET ("a", G(NULL), G("b"), G("a"))); _ASSERT (3, !NM_IN_STRSET (NULL, G("a"), G("b"), G("a"))); _ASSERT (1, NM_IN_STRSET (NULL, G(NULL), N(NULL), N("b"))); _ASSERT (3, !NM_IN_STRSET ("a", G(NULL), G(NULL), G("b"))); _ASSERT (2, NM_IN_STRSET (NULL, G("a"), G(NULL), N("b"))); _ASSERT (1, NM_IN_STRSET (NULL, G(NULL), N("a"), N("b"))); _ASSERT (2, NM_IN_STRSET ("a", G(NULL), G("a"), N("b"))); _ASSERT (3, !NM_IN_STRSET (NULL, G("a"), G("a"), G("b"))); _ASSERT (1, NM_IN_STRSET (NULL, G(NULL), N("b"), N("b"))); _ASSERT (3, !NM_IN_STRSET ("a", G(NULL), G("b"), G("b"))); _ASSERT (3, !NM_IN_STRSET (NULL, G("a"), G("b"), G("b"))); _ASSERT (3, NM_IN_STRSET_SE (NULL, G(NULL), G(NULL), G(NULL))); _ASSERT (3, !NM_IN_STRSET_SE ("a", G(NULL), G(NULL), G(NULL))); _ASSERT (3, NM_IN_STRSET_SE (NULL, G("a"), G(NULL), G(NULL))); _ASSERT (3, NM_IN_STRSET_SE (NULL, G(NULL), G("a"), G(NULL))); _ASSERT (3, NM_IN_STRSET_SE ("a", G(NULL), G("a"), G(NULL))); _ASSERT (3, NM_IN_STRSET_SE (NULL, G("a"), G("a"), G(NULL))); _ASSERT (3, NM_IN_STRSET_SE (NULL, G(NULL), G("b"), G(NULL))); _ASSERT (3, !NM_IN_STRSET_SE ("a", G(NULL), G("b"), G(NULL))); _ASSERT (3, NM_IN_STRSET_SE (NULL, G("a"), G("b"), G(NULL))); _ASSERT (3, NM_IN_STRSET_SE (NULL, G(NULL), G(NULL), G("a"))); _ASSERT (3, NM_IN_STRSET_SE ("a", G(NULL), G(NULL), G("a"))); _ASSERT (3, NM_IN_STRSET_SE (NULL, G("a"), G(NULL), G("a"))); _ASSERT (3, NM_IN_STRSET_SE (NULL, G(NULL), G("a"), G("a"))); _ASSERT (3, NM_IN_STRSET_SE ("a", G(NULL), G("a"), G("a"))); _ASSERT (3, !NM_IN_STRSET_SE (NULL, G("a"), G("a"), G("a"))); _ASSERT (3, NM_IN_STRSET_SE (NULL, G(NULL), G("b"), G("a"))); _ASSERT (3, NM_IN_STRSET_SE ("a", G(NULL), G("b"), G("a"))); _ASSERT (3, !NM_IN_STRSET_SE (NULL, G("a"), G("b"), G("a"))); _ASSERT (3, NM_IN_STRSET_SE (NULL, G(NULL), G(NULL), G("b"))); _ASSERT (3, !NM_IN_STRSET_SE ("a", G(NULL), G(NULL), G("b"))); _ASSERT (3, NM_IN_STRSET_SE (NULL, G("a"), G(NULL), G("b"))); _ASSERT (3, NM_IN_STRSET_SE (NULL, G(NULL), G("a"), G("b"))); _ASSERT (3, NM_IN_STRSET_SE ("a", G(NULL), G("a"), G("b"))); _ASSERT (3, !NM_IN_STRSET_SE (NULL, G("a"), G("a"), G("b"))); _ASSERT (3, NM_IN_STRSET_SE (NULL, G(NULL), G("b"), G("b"))); _ASSERT (3, !NM_IN_STRSET_SE ("a", G(NULL), G("b"), G("b"))); _ASSERT (3, !NM_IN_STRSET_SE (NULL, G("a"), G("b"), G("b"))); _ASSERT (3, NM_IN_STRSET ("a", G(NULL), G("b"), G("a"), N("a"))); _ASSERT (4, NM_IN_STRSET ("a", G(NULL), G("b"), G("c"), G("a"))); _ASSERT (4, !NM_IN_STRSET ("a", G(NULL), G("b"), G("c"), G("d"))); _ASSERT (4, NM_IN_STRSET ("a", G(NULL), G("b"), G("c"), G("a"), N("a"))); _ASSERT (5, NM_IN_STRSET ("a", G(NULL), G("b"), G("c"), G("d"), G("a"))); _ASSERT (5, !NM_IN_STRSET ("a", G(NULL), G("b"), G("c"), G("d"), G("e"))); _ASSERT (5, NM_IN_STRSET ("a", G(NULL), G("b"), G("c"), G("d"), G("a"), N("a"))); _ASSERT (6, NM_IN_STRSET ("a", G(NULL), G("b"), G("c"), G("d"), G("e"), G("a"))); _ASSERT (6, !NM_IN_STRSET ("a", G(NULL), G("b"), G("c"), G("d"), G("e"), G("f"))); (void) NM_IN_STRSET ("a", "1", "2", "3", "4", "5", "6", "7", "8", "9", "10", "11", "12", "13", "14", "15", "16"); #undef G #undef N #undef _ASSERT } static void test_route_attributes_parse (void) { GHashTable *ht; GError *error = NULL; GVariant *variant; ht = nm_utils_parse_variant_attributes ("mtu=1400 src=1.2.3.4 cwnd=14", ' ', '=', FALSE, nm_ip_route_get_variant_attribute_spec (), &error); g_assert_no_error (error); g_assert (ht); g_hash_table_unref (ht); ht = nm_utils_parse_variant_attributes ("mtu=1400 src=1.2.3.4 cwnd=14 \\", ' ', '=', FALSE, nm_ip_route_get_variant_attribute_spec (), &error); g_assert_error (error, NM_CONNECTION_ERROR, NM_CONNECTION_ERROR_FAILED); g_assert (!ht); g_clear_error (&error); ht = nm_utils_parse_variant_attributes ("mtu.1400 src.1\\.2\\.3\\.4 ", ' ', '.', FALSE, nm_ip_route_get_variant_attribute_spec (), &error); g_assert (ht); g_assert_no_error (error); variant = g_hash_table_lookup (ht, NM_IP_ROUTE_ATTRIBUTE_MTU); g_assert (variant); g_assert (g_variant_is_of_type (variant, G_VARIANT_TYPE_UINT32)); g_assert_cmpuint (g_variant_get_uint32 (variant), ==, 1400); variant = g_hash_table_lookup (ht, NM_IP_ROUTE_ATTRIBUTE_SRC); g_assert (variant); g_assert (g_variant_is_of_type (variant, G_VARIANT_TYPE_STRING)); g_assert_cmpstr (g_variant_get_string (variant, NULL), ==, "1.2.3.4"); g_hash_table_unref (ht); ht = nm_utils_parse_variant_attributes ("from:fd01\\:\\:42\\/64/initrwnd:21", '/', ':', FALSE, nm_ip_route_get_variant_attribute_spec (), &error); g_assert (ht); g_assert_no_error (error); variant = g_hash_table_lookup (ht, NM_IP_ROUTE_ATTRIBUTE_INITRWND); g_assert (variant); g_assert (g_variant_is_of_type (variant, G_VARIANT_TYPE_UINT32)); g_assert_cmpuint (g_variant_get_uint32 (variant), ==, 21); variant = g_hash_table_lookup (ht, NM_IP_ROUTE_ATTRIBUTE_FROM); g_assert (variant); g_assert (g_variant_is_of_type (variant, G_VARIANT_TYPE_STRING)); g_assert_cmpstr (g_variant_get_string (variant, NULL), ==, "fd01::42/64"); g_hash_table_unref (ht); } static void test_route_attributes_format (void) { gs_unref_hashtable GHashTable *ht = NULL; char *str; ht = g_hash_table_new_full (nm_str_hash, g_str_equal, NULL, (GDestroyNotify) g_variant_unref); str = nm_utils_format_variant_attributes (NULL, ' ', '='); g_assert_cmpstr (str, ==, NULL); str = nm_utils_format_variant_attributes (ht, ' ', '='); g_assert_cmpstr (str, ==, NULL); g_hash_table_insert (ht, NM_IP_ROUTE_ATTRIBUTE_MTU, g_variant_new_uint32 (5000)); g_hash_table_insert (ht, NM_IP_ROUTE_ATTRIBUTE_INITRWND, g_variant_new_uint32 (20)); g_hash_table_insert (ht, NM_IP_ROUTE_ATTRIBUTE_LOCK_MTU, g_variant_new_boolean (TRUE)); g_hash_table_insert (ht, NM_IP_ROUTE_ATTRIBUTE_SRC, g_variant_new_string ("aaaa:bbbb::1")); str = nm_utils_format_variant_attributes (ht, ' ', '='); g_assert_cmpstr (str, ==, "initrwnd=20 lock-mtu=true mtu=5000 src=aaaa:bbbb::1"); g_hash_table_remove_all (ht); g_free (str); g_hash_table_insert (ht, NM_IP_ROUTE_ATTRIBUTE_WINDOW, g_variant_new_uint32 (30000)); g_hash_table_insert (ht, NM_IP_ROUTE_ATTRIBUTE_INITCWND, g_variant_new_uint32 (21)); g_hash_table_insert (ht, NM_IP_ROUTE_ATTRIBUTE_FROM, g_variant_new_string ("aaaa:bbbb:cccc:dddd::/64")); str = nm_utils_format_variant_attributes (ht, '/', ':'); g_assert_cmpstr (str, ==, "from:aaaa\\:bbbb\\:cccc\\:dddd\\:\\:\\/64/initcwnd:21/window:30000"); g_hash_table_remove_all (ht); g_free (str); } /*****************************************************************************/ static gboolean do_test_nm_set_out_called (int *call_count) { (*call_count)++; return TRUE; } static void test_nm_set_out (void) { gboolean val; gboolean *p_val; int call_count; /* NM_SET_OUT() has an unexpected non-function like behavior * wrt. side-effects of the value argument. Test it */ p_val = &val; call_count = 0; NM_SET_OUT (p_val, do_test_nm_set_out_called (&call_count)); g_assert_cmpint (call_count, ==, 1); p_val = NULL; call_count = 0; NM_SET_OUT (p_val, do_test_nm_set_out_called (&call_count)); g_assert_cmpint (call_count, ==, 0); /* test that we successfully re-defined _G_BOOLEAN_EXPR() */ #define _T1(a) \ ({ \ g_assert (a > 2); \ a; \ }) g_assert (_T1 (3) > 1); #undef _T1 } /*****************************************************************************/ static void test_get_start_time_for_pid (void) { guint64 x_start_time; char x_state; pid_t x_ppid; x_start_time = nm_utils_get_start_time_for_pid (getpid (), &x_state, &x_ppid); g_assert (x_start_time > 0); g_assert (x_ppid == getppid ()); g_assert (!NM_IN_SET (x_state, '\0', ' ')); } /*****************************************************************************/ static void test_nm_va_args_macros (void) { #define GET_NARG_1(...) \ NM_NARG (__VA_ARGS__) g_assert_cmpint ( 0, ==, GET_NARG_1 ()); g_assert_cmpint ( 1, ==, GET_NARG_1 (x)); g_assert_cmpint ( 2, ==, GET_NARG_1 ( , )); g_assert_cmpint ( 2, ==, GET_NARG_1 ( , x)); g_assert_cmpint ( 2, ==, GET_NARG_1 (x, )); g_assert_cmpint ( 2, ==, GET_NARG_1 (x, x)); g_assert_cmpint ( 3, ==, GET_NARG_1 ( , , )); g_assert_cmpint ( 3, ==, GET_NARG_1 ( , , x)); g_assert_cmpint ( 3, ==, GET_NARG_1 ( , x, )); g_assert_cmpint ( 3, ==, GET_NARG_1 ( , x, x)); g_assert_cmpint ( 3, ==, GET_NARG_1 (x, , )); g_assert_cmpint ( 3, ==, GET_NARG_1 (x, , x)); g_assert_cmpint ( 3, ==, GET_NARG_1 (x, x, )); g_assert_cmpint ( 3, ==, GET_NARG_1 (x, x, x)); g_assert_cmpint ( 4, ==, GET_NARG_1 ( , , , )); g_assert_cmpint ( 4, ==, GET_NARG_1 ( , , , x)); g_assert_cmpint ( 4, ==, GET_NARG_1 ( , , x, )); g_assert_cmpint ( 4, ==, GET_NARG_1 ( , , x, x)); g_assert_cmpint ( 4, ==, GET_NARG_1 ( , x, , )); g_assert_cmpint ( 4, ==, GET_NARG_1 ( , x, , x)); g_assert_cmpint ( 4, ==, GET_NARG_1 ( , x, x, )); g_assert_cmpint ( 4, ==, GET_NARG_1 ( , x, x, x)); g_assert_cmpint ( 4, ==, GET_NARG_1 (x, , , )); g_assert_cmpint ( 4, ==, GET_NARG_1 (x, , , x)); g_assert_cmpint ( 4, ==, GET_NARG_1 (x, , x, )); g_assert_cmpint ( 4, ==, GET_NARG_1 (x, , x, x)); g_assert_cmpint ( 4, ==, GET_NARG_1 (x, x, , )); g_assert_cmpint ( 4, ==, GET_NARG_1 (x, x, , x)); g_assert_cmpint ( 4, ==, GET_NARG_1 (x, x, x, )); g_assert_cmpint ( 4, ==, GET_NARG_1 (x, x, x, x)); g_assert_cmpint ( 5, ==, GET_NARG_1 (x, x, x, x, x)); g_assert_cmpint ( 6, ==, GET_NARG_1 (x, x, x, x, x, x)); g_assert_cmpint ( 7, ==, GET_NARG_1 (x, x, x, x, x, x, x)); g_assert_cmpint ( 8, ==, GET_NARG_1 (x, x, x, x, x, x, x, x)); g_assert_cmpint ( 9, ==, GET_NARG_1 (x, x, x, x, x, x, x, x, x)); g_assert_cmpint (10, ==, GET_NARG_1 (x, x, x, x, x, x, x, x, x, x)); G_STATIC_ASSERT_EXPR (0 == GET_NARG_1 ()); G_STATIC_ASSERT_EXPR (1 == GET_NARG_1 (x)); G_STATIC_ASSERT_EXPR (2 == GET_NARG_1 (x, x)); } /*****************************************************************************/ static void test_ethtool_offload (void) { const NMEthtoolData *d; g_assert_cmpint (nm_ethtool_id_get_by_name ("invalid"), ==, NM_ETHTOOL_ID_UNKNOWN); g_assert_cmpint (nm_ethtool_id_get_by_name ("feature-rx"), ==, NM_ETHTOOL_ID_FEATURE_RX); d = nm_ethtool_data_get_by_optname (NM_ETHTOOL_OPTNAME_FEATURE_RXHASH); g_assert (d); g_assert_cmpint (d->id, ==, NM_ETHTOOL_ID_FEATURE_RXHASH); g_assert_cmpstr (d->optname, ==, NM_ETHTOOL_OPTNAME_FEATURE_RXHASH); } /*****************************************************************************/ NMTST_DEFINE (); int main (int argc, char **argv) { nmtst_init (&argc, &argv, TRUE); g_test_add_func ("/core/general/test_nm_ascii_spaces", test_nm_ascii_spaces); g_test_add_func ("/core/general/test_nm_hash", test_nm_hash); g_test_add_func ("/core/general/test_nm_g_slice_free_fcn", test_nm_g_slice_free_fcn); g_test_add_func ("/core/general/test_c_list_sort", test_c_list_sort); g_test_add_func ("/core/general/test_dedup_multi", test_dedup_multi); g_test_add_func ("/core/general/test_utils_str_utf8safe", test_utils_str_utf8safe); g_test_add_func ("/core/general/test_nm_utils_strsplit_set", test_nm_utils_strsplit_set); g_test_add_func ("/core/general/test_nm_in_set", test_nm_in_set); g_test_add_func ("/core/general/test_nm_in_strset", test_nm_in_strset); g_test_add_func ("/core/general/test_setting_vpn_items", test_setting_vpn_items); g_test_add_func ("/core/general/test_setting_vpn_update_secrets", test_setting_vpn_update_secrets); g_test_add_func ("/core/general/test_setting_vpn_modify_during_foreach", test_setting_vpn_modify_during_foreach); g_test_add_func ("/core/general/test_setting_ip4_config_labels", test_setting_ip4_config_labels); g_test_add_func ("/core/general/test_setting_ip4_config_address_data", test_setting_ip4_config_address_data); g_test_add_func ("/core/general/test_setting_ip_route_attributes", test_setting_ip_route_attributes); g_test_add_func ("/core/general/test_setting_gsm_apn_spaces", test_setting_gsm_apn_spaces); g_test_add_func ("/core/general/test_setting_gsm_apn_bad_chars", test_setting_gsm_apn_bad_chars); g_test_add_func ("/core/general/test_setting_gsm_apn_underscore", test_setting_gsm_apn_underscore); g_test_add_func ("/core/general/test_setting_gsm_without_number", test_setting_gsm_without_number); g_test_add_func ("/core/general/test_setting_gsm_sim_operator_id", test_setting_gsm_sim_operator_id); g_test_add_func ("/core/general/test_setting_to_dbus_all", test_setting_to_dbus_all); g_test_add_func ("/core/general/test_setting_to_dbus_no_secrets", test_setting_to_dbus_no_secrets); g_test_add_func ("/core/general/test_setting_to_dbus_only_secrets", test_setting_to_dbus_only_secrets); g_test_add_func ("/core/general/test_setting_to_dbus_transform", test_setting_to_dbus_transform); g_test_add_func ("/core/general/test_setting_to_dbus_enum", test_setting_to_dbus_enum); g_test_add_func ("/core/general/test_setting_compare_id", test_setting_compare_id); g_test_add_func ("/core/general/test_setting_compare_addresses", test_setting_compare_addresses); g_test_add_func ("/core/general/test_setting_compare_routes", test_setting_compare_routes); g_test_add_func ("/core/general/test_setting_compare_wired_cloned_mac_address", test_setting_compare_wired_cloned_mac_address); g_test_add_func ("/core/general/test_setting_compare_wirless_cloned_mac_address", test_setting_compare_wireless_cloned_mac_address); g_test_add_func ("/core/general/test_setting_compare_timestamp", test_setting_compare_timestamp); #define ADD_FUNC(name, func, secret_flags, comp_flags, remove_secret) \ g_test_add_data_func_full ("/core/general/" G_STRINGIFY (func) "_" name, \ test_data_compare_secrets_new (secret_flags, comp_flags, remove_secret), \ func, g_free) ADD_FUNC ("agent_owned", test_setting_compare_secrets, NM_SETTING_SECRET_FLAG_AGENT_OWNED, NM_SETTING_COMPARE_FLAG_IGNORE_AGENT_OWNED_SECRETS, TRUE); ADD_FUNC ("not_saved", test_setting_compare_secrets, NM_SETTING_SECRET_FLAG_NOT_SAVED, NM_SETTING_COMPARE_FLAG_IGNORE_NOT_SAVED_SECRETS, TRUE); ADD_FUNC ("secrets", test_setting_compare_secrets, NM_SETTING_SECRET_FLAG_NONE, NM_SETTING_COMPARE_FLAG_IGNORE_SECRETS, TRUE); ADD_FUNC ("exact", test_setting_compare_secrets, NM_SETTING_SECRET_FLAG_NONE, NM_SETTING_COMPARE_FLAG_EXACT, FALSE); ADD_FUNC ("agent_owned", test_setting_compare_vpn_secrets, NM_SETTING_SECRET_FLAG_AGENT_OWNED, NM_SETTING_COMPARE_FLAG_IGNORE_AGENT_OWNED_SECRETS, TRUE); ADD_FUNC ("not_saved", test_setting_compare_vpn_secrets, NM_SETTING_SECRET_FLAG_NOT_SAVED, NM_SETTING_COMPARE_FLAG_IGNORE_NOT_SAVED_SECRETS, TRUE); ADD_FUNC ("secrets", test_setting_compare_vpn_secrets, NM_SETTING_SECRET_FLAG_NONE, NM_SETTING_COMPARE_FLAG_IGNORE_SECRETS, TRUE); ADD_FUNC ("exact", test_setting_compare_vpn_secrets, NM_SETTING_SECRET_FLAG_NONE, NM_SETTING_COMPARE_FLAG_EXACT, FALSE); g_test_add_func ("/core/general/test_setting_old_uuid", test_setting_old_uuid); g_test_add_func ("/core/general/test_connection_to_dbus_setting_name", test_connection_to_dbus_setting_name); g_test_add_func ("/core/general/test_connection_to_dbus_deprecated_props", test_connection_to_dbus_deprecated_props); g_test_add_func ("/core/general/test_setting_new_from_dbus", test_setting_new_from_dbus); g_test_add_func ("/core/general/test_setting_new_from_dbus_transform", test_setting_new_from_dbus_transform); g_test_add_func ("/core/general/test_setting_new_from_dbus_enum", test_setting_new_from_dbus_enum); g_test_add_func ("/core/general/test_setting_new_from_dbus_bad", test_setting_new_from_dbus_bad); g_test_add_func ("/core/general/test_connection_replace_settings", test_connection_replace_settings); g_test_add_func ("/core/general/test_connection_replace_settings_from_connection", test_connection_replace_settings_from_connection); g_test_add_func ("/core/general/test_connection_replace_settings_bad", test_connection_replace_settings_bad); g_test_add_func ("/core/general/test_connection_new_from_dbus", test_connection_new_from_dbus); g_test_add_func ("/core/general/test_connection_normalize_virtual_iface_name", test_connection_normalize_virtual_iface_name); g_test_add_func ("/core/general/test_connection_normalize_uuid", test_connection_normalize_uuid); g_test_add_func ("/core/general/test_connection_normalize_type", test_connection_normalize_type); g_test_add_func ("/core/general/test_connection_normalize_slave_type_1", test_connection_normalize_slave_type_1); g_test_add_func ("/core/general/test_connection_normalize_slave_type_2", test_connection_normalize_slave_type_2); g_test_add_func ("/core/general/test_connection_normalize_infiniband_mtu", test_connection_normalize_infiniband_mtu); g_test_add_func ("/core/general/test_connection_normalize_gateway_never_default", test_connection_normalize_gateway_never_default); g_test_add_func ("/core/general/test_connection_normalize_may_fail", test_connection_normalize_may_fail); g_test_add_func ("/core/general/test_connection_normalize_shared_addresses", test_connection_normalize_shared_addresses); g_test_add_data_func ("/core/general/test_connection_normalize_ovs_interface_type_system/1", GUINT_TO_POINTER (1), test_connection_normalize_ovs_interface_type_system); g_test_add_data_func ("/core/general/test_connection_normalize_ovs_interface_type_system/2", GUINT_TO_POINTER (2), test_connection_normalize_ovs_interface_type_system); g_test_add_data_func ("/core/general/test_connection_normalize_ovs_interface_type_system/3", GUINT_TO_POINTER (3), test_connection_normalize_ovs_interface_type_system); g_test_add_data_func ("/core/general/test_connection_normalize_ovs_interface_type_system/4", GUINT_TO_POINTER (4), test_connection_normalize_ovs_interface_type_system); g_test_add_data_func ("/core/general/test_connection_normalize_ovs_interface_type_system/5", GUINT_TO_POINTER (5), test_connection_normalize_ovs_interface_type_system); g_test_add_data_func ("/core/general/test_connection_normalize_ovs_interface_type_system/6", GUINT_TO_POINTER (6), test_connection_normalize_ovs_interface_type_system); g_test_add_data_func ("/core/general/test_connection_normalize_ovs_interface_type_system/7", GUINT_TO_POINTER (7), test_connection_normalize_ovs_interface_type_system); g_test_add_data_func ("/core/general/test_connection_normalize_ovs_interface_type_ovs_interface/1", GUINT_TO_POINTER (1), test_connection_normalize_ovs_interface_type_ovs_interface); g_test_add_data_func ("/core/general/test_connection_normalize_ovs_interface_type_ovs_interface/2", GUINT_TO_POINTER (2), test_connection_normalize_ovs_interface_type_ovs_interface); g_test_add_data_func ("/core/general/test_connection_normalize_ovs_interface_type_ovs_interface/3", GUINT_TO_POINTER (3), test_connection_normalize_ovs_interface_type_ovs_interface); g_test_add_data_func ("/core/general/test_connection_normalize_ovs_interface_type_ovs_interface/4", GUINT_TO_POINTER (4), test_connection_normalize_ovs_interface_type_ovs_interface); g_test_add_data_func ("/core/general/test_connection_normalize_ovs_interface_type_ovs_interface/5", GUINT_TO_POINTER (5), test_connection_normalize_ovs_interface_type_ovs_interface); g_test_add_data_func ("/core/general/test_connection_normalize_ovs_interface_type_ovs_interface/6", GUINT_TO_POINTER (6), test_connection_normalize_ovs_interface_type_ovs_interface); g_test_add_data_func ("/core/general/test_connection_normalize_ovs_interface_type_ovs_interface/7", GUINT_TO_POINTER (7), test_connection_normalize_ovs_interface_type_ovs_interface); g_test_add_data_func ("/core/general/test_connection_normalize_ovs_interface_type_ovs_interface/8", GUINT_TO_POINTER (8), test_connection_normalize_ovs_interface_type_ovs_interface); g_test_add_data_func ("/core/general/test_connection_normalize_ovs_interface_type_ovs_interface/9", GUINT_TO_POINTER (9), test_connection_normalize_ovs_interface_type_ovs_interface); g_test_add_data_func ("/core/general/test_connection_normalize_ovs_interface_type_ovs_interface/10", GUINT_TO_POINTER (10), test_connection_normalize_ovs_interface_type_ovs_interface); g_test_add_data_func ("/core/general/test_connection_normalize_ovs_interface_type_ovs_interface/11", GUINT_TO_POINTER (11), test_connection_normalize_ovs_interface_type_ovs_interface); g_test_add_data_func ("/core/general/test_connection_normalize_ovs_interface_type_ovs_interface/12", GUINT_TO_POINTER (12), test_connection_normalize_ovs_interface_type_ovs_interface); g_test_add_func ("/core/general/test_setting_connection_permissions_helpers", test_setting_connection_permissions_helpers); g_test_add_func ("/core/general/test_setting_connection_permissions_property", test_setting_connection_permissions_property); g_test_add_func ("/core/general/test_connection_compare_same", test_connection_compare_same); g_test_add_func ("/core/general/test_connection_compare_key_only_in_a", test_connection_compare_key_only_in_a); g_test_add_func ("/core/general/test_connection_compare_setting_only_in_a", test_connection_compare_setting_only_in_a); g_test_add_func ("/core/general/test_connection_compare_key_only_in_b", test_connection_compare_key_only_in_b); g_test_add_func ("/core/general/test_connection_compare_setting_only_in_b", test_connection_compare_setting_only_in_b); g_test_add_func ("/core/general/test_connection_diff_a_only", test_connection_diff_a_only); g_test_add_func ("/core/general/test_connection_diff_same", test_connection_diff_same); g_test_add_func ("/core/general/test_connection_diff_different", test_connection_diff_different); g_test_add_func ("/core/general/test_connection_diff_no_secrets", test_connection_diff_no_secrets); g_test_add_func ("/core/general/test_connection_diff_inferrable", test_connection_diff_inferrable); g_test_add_func ("/core/general/test_connection_good_base_types", test_connection_good_base_types); g_test_add_func ("/core/general/test_connection_bad_base_types", test_connection_bad_base_types); g_test_add_func ("/core/general/test_hwaddr_aton_ether_normal", test_hwaddr_aton_ether_normal); g_test_add_func ("/core/general/test_hwaddr_aton_ib_normal", test_hwaddr_aton_ib_normal); g_test_add_func ("/core/general/test_hwaddr_aton_no_leading_zeros", test_hwaddr_aton_no_leading_zeros); g_test_add_func ("/core/general/test_hwaddr_aton_malformed", test_hwaddr_aton_malformed); g_test_add_func ("/core/general/test_hwaddr_equal", test_hwaddr_equal); g_test_add_func ("/core/general/test_hwaddr_canonical", test_hwaddr_canonical); g_test_add_func ("/core/general/test_ip4_prefix_to_netmask", test_ip4_prefix_to_netmask); g_test_add_func ("/core/general/test_ip4_netmask_to_prefix", test_ip4_netmask_to_prefix); g_test_add_func ("/core/general/test_connection_changed_signal", test_connection_changed_signal); g_test_add_func ("/core/general/test_setting_connection_changed_signal", test_setting_connection_changed_signal); g_test_add_func ("/core/general/test_setting_bond_changed_signal", test_setting_bond_changed_signal); g_test_add_func ("/core/general/test_setting_ip4_changed_signal", test_setting_ip4_changed_signal); g_test_add_func ("/core/general/test_setting_ip6_changed_signal", test_setting_ip6_changed_signal); g_test_add_func ("/core/general/test_setting_vlan_changed_signal", test_setting_vlan_changed_signal); g_test_add_func ("/core/general/test_setting_vpn_changed_signal", test_setting_vpn_changed_signal); g_test_add_func ("/core/general/test_setting_wired_changed_signal", test_setting_wired_changed_signal); g_test_add_func ("/core/general/test_setting_wireless_changed_signal", test_setting_wireless_changed_signal); g_test_add_func ("/core/general/test_setting_wireless_security_changed_signal", test_setting_wireless_security_changed_signal); g_test_add_func ("/core/general/test_setting_802_1x_changed_signal", test_setting_802_1x_changed_signal); g_test_add_func ("/core/general/test_setting_ip4_gateway", test_setting_ip4_gateway); g_test_add_func ("/core/general/test_setting_ip6_gateway", test_setting_ip6_gateway); g_test_add_func ("/core/general/test_setting_compare_default_strv", test_setting_compare_default_strv); g_test_add_func ("/core/general/test_setting_user_data", test_setting_user_data); g_test_add_func ("/core/general/test_sock_addr_endpoint", test_sock_addr_endpoint); g_test_add_func ("/core/general/hexstr2bin", test_hexstr2bin); g_test_add_func ("/core/general/nm_strquote", test_nm_strquote); g_test_add_func ("/core/general/test_nm_utils_uuid_generate_from_string", test_nm_utils_uuid_generate_from_string); g_test_add_func ("/core/general/_nm_utils_uuid_generate_from_strings", test_nm_utils_uuid_generate_from_strings); g_test_add_func ("/core/general/_nm_utils_ascii_str_to_int64", test_nm_utils_ascii_str_to_int64); g_test_add_func ("/core/general/nm_utils_is_power_of_two", test_nm_utils_is_power_of_two); g_test_add_func ("/core/general/nm_utils_ptrarray_find_binary_search", test_nm_utils_ptrarray_find_binary_search); g_test_add_func ("/core/general/nm_utils_ptrarray_find_binary_search_with_duplicates", test_nm_utils_ptrarray_find_binary_search_with_duplicates); g_test_add_func ("/core/general/_nm_utils_strstrdictkey", test_nm_utils_strstrdictkey); g_test_add_func ("/core/general/nm_ptrarray_len", test_nm_ptrarray_len); g_test_add_func ("/core/general/_nm_utils_dns_option_validate", test_nm_utils_dns_option_validate); g_test_add_func ("/core/general/_nm_utils_dns_option_find_idx", test_nm_utils_dns_option_find_idx); g_test_add_func ("/core/general/_nm_utils_validate_json", test_nm_utils_check_valid_json); g_test_add_func ("/core/general/_nm_utils_team_config_equal", test_nm_utils_team_config_equal); g_test_add_func ("/core/general/test_nm_utils_enum", test_nm_utils_enum); g_test_add_func ("/core/general/nm-set-out", test_nm_set_out); g_test_add_func ("/core/general/route_attributes/parse", test_route_attributes_parse); g_test_add_func ("/core/general/route_attributes/format", test_route_attributes_format); g_test_add_func ("/core/general/get_start_time_for_pid", test_get_start_time_for_pid); g_test_add_func ("/core/general/test_nm_va_args_macros", test_nm_va_args_macros); g_test_add_func ("/core/general/test_ethtool_offload", test_ethtool_offload); return g_test_run (); }